import { BlockchainLifecycle } from '@0xproject/dev-utils'; import { assetDataUtils, orderHashUtils } from '@0xproject/order-utils'; import { RevertReason, SignatureType, SignedOrder } from '@0xproject/types'; import { BigNumber } from '@0xproject/utils'; import { Web3Wrapper } from '@0xproject/web3-wrapper'; import * as chai from 'chai'; import { LogWithDecodedArgs } from 'ethereum-types'; import ethUtil = require('ethereumjs-util'); import * as _ from 'lodash'; import { DummyERC20TokenContract, DummyERC20TokenTransferEventArgs, } from '../../generated_contract_wrappers/dummy_erc20_token'; import { DummyERC721TokenContract } from '../../generated_contract_wrappers/dummy_erc721_token'; import { DummyNoReturnERC20TokenContract } from '../../generated_contract_wrappers/dummy_no_return_erc20_token'; import { ERC20ProxyContract } from '../../generated_contract_wrappers/erc20_proxy'; import { ERC721ProxyContract } from '../../generated_contract_wrappers/erc721_proxy'; import { ExchangeCancelEventArgs, ExchangeContract } from '../../generated_contract_wrappers/exchange'; import { ReentrantERC20TokenContract } from '../../generated_contract_wrappers/reentrant_erc20_token'; import { TestStaticCallReceiverContract } from '../../generated_contract_wrappers/test_static_call_receiver'; import { artifacts } from '../utils/artifacts'; import { expectTransactionFailedAsync } from '../utils/assertions'; import { getLatestBlockTimestampAsync, increaseTimeAndMineBlockAsync } from '../utils/block_timestamp'; import { chaiSetup } from '../utils/chai_setup'; import { constants } from '../utils/constants'; import { ERC20Wrapper } from '../utils/erc20_wrapper'; import { ERC721Wrapper } from '../utils/erc721_wrapper'; import { ExchangeWrapper } from '../utils/exchange_wrapper'; import { OrderFactory } from '../utils/order_factory'; import { ERC20BalancesByOwner, OrderStatus } from '../utils/types'; import { provider, txDefaults, web3Wrapper } from '../utils/web3_wrapper'; chaiSetup.configure(); const expect = chai.expect; const blockchainLifecycle = new BlockchainLifecycle(web3Wrapper); // tslint:disable:no-unnecessary-type-assertion describe('Exchange core', () => { let makerAddress: string; let owner: string; let takerAddress: string; let feeRecipientAddress: string; let erc20TokenA: DummyERC20TokenContract; let erc20TokenB: DummyERC20TokenContract; let zrxToken: DummyERC20TokenContract; let erc721Token: DummyERC721TokenContract; let noReturnErc20Token: DummyNoReturnERC20TokenContract; let reentrantErc20Token: ReentrantERC20TokenContract; let exchange: ExchangeContract; let erc20Proxy: ERC20ProxyContract; let erc721Proxy: ERC721ProxyContract; let maliciousWallet: TestStaticCallReceiverContract; let maliciousValidator: TestStaticCallReceiverContract; let signedOrder: SignedOrder; let erc20Balances: ERC20BalancesByOwner; let exchangeWrapper: ExchangeWrapper; let erc20Wrapper: ERC20Wrapper; let erc721Wrapper: ERC721Wrapper; let orderFactory: OrderFactory; let erc721MakerAssetIds: BigNumber[]; let erc721TakerAssetIds: BigNumber[]; let defaultMakerAssetAddress: string; let defaultTakerAssetAddress: string; before(async () => { await blockchainLifecycle.startAsync(); }); after(async () => { await blockchainLifecycle.revertAsync(); }); before(async () => { const accounts = await web3Wrapper.getAvailableAddressesAsync(); const usedAddresses = ([owner, makerAddress, takerAddress, feeRecipientAddress] = _.slice(accounts, 0, 4)); erc20Wrapper = new ERC20Wrapper(provider, usedAddresses, owner); erc721Wrapper = new ERC721Wrapper(provider, usedAddresses, owner); const numDummyErc20ToDeploy = 3; [erc20TokenA, erc20TokenB, zrxToken] = await erc20Wrapper.deployDummyTokensAsync( numDummyErc20ToDeploy, constants.DUMMY_TOKEN_DECIMALS, ); erc20Proxy = await erc20Wrapper.deployProxyAsync(); await erc20Wrapper.setBalancesAndAllowancesAsync(); [erc721Token] = await erc721Wrapper.deployDummyTokensAsync(); erc721Proxy = await erc721Wrapper.deployProxyAsync(); await erc721Wrapper.setBalancesAndAllowancesAsync(); const erc721Balances = await erc721Wrapper.getBalancesAsync(); erc721MakerAssetIds = erc721Balances[makerAddress][erc721Token.address]; erc721TakerAssetIds = erc721Balances[takerAddress][erc721Token.address]; exchange = await ExchangeContract.deployFrom0xArtifactAsync( artifacts.Exchange, provider, txDefaults, assetDataUtils.encodeERC20AssetData(zrxToken.address), ); exchangeWrapper = new ExchangeWrapper(exchange, provider); await exchangeWrapper.registerAssetProxyAsync(erc20Proxy.address, owner); await exchangeWrapper.registerAssetProxyAsync(erc721Proxy.address, owner); await web3Wrapper.awaitTransactionSuccessAsync( await erc20Proxy.addAuthorizedAddress.sendTransactionAsync(exchange.address, { from: owner, }), constants.AWAIT_TRANSACTION_MINED_MS, ); await web3Wrapper.awaitTransactionSuccessAsync( await erc721Proxy.addAuthorizedAddress.sendTransactionAsync(exchange.address, { from: owner, }), constants.AWAIT_TRANSACTION_MINED_MS, ); maliciousWallet = maliciousValidator = await TestStaticCallReceiverContract.deployFrom0xArtifactAsync( artifacts.TestStaticCallReceiver, provider, txDefaults, ); reentrantErc20Token = await ReentrantERC20TokenContract.deployFrom0xArtifactAsync( artifacts.ReentrantERC20Token, provider, txDefaults, exchange.address, ); defaultMakerAssetAddress = erc20TokenA.address; defaultTakerAssetAddress = erc20TokenB.address; const defaultOrderParams = { ...constants.STATIC_ORDER_PARAMS, exchangeAddress: exchange.address, makerAddress, feeRecipientAddress, makerAssetData: assetDataUtils.encodeERC20AssetData(defaultMakerAssetAddress), takerAssetData: assetDataUtils.encodeERC20AssetData(defaultTakerAssetAddress), }; const privateKey = constants.TESTRPC_PRIVATE_KEYS[accounts.indexOf(makerAddress)]; orderFactory = new OrderFactory(privateKey, defaultOrderParams); }); beforeEach(async () => { await blockchainLifecycle.startAsync(); }); afterEach(async () => { await blockchainLifecycle.revertAsync(); }); describe('fillOrder', () => { beforeEach(async () => { erc20Balances = await erc20Wrapper.getBalancesAsync(); signedOrder = await orderFactory.newSignedOrderAsync(); }); const reentrancyTest = (functionNames: string[]) => { _.forEach(functionNames, async (functionName: string, functionId: number) => { const description = `should not allow fillOrder to reenter the Exchange contract via ${functionName}`; it(description, async () => { signedOrder = await orderFactory.newSignedOrderAsync({ makerAssetData: assetDataUtils.encodeERC20AssetData(reentrantErc20Token.address), }); await web3Wrapper.awaitTransactionSuccessAsync( await reentrantErc20Token.setCurrentFunction.sendTransactionAsync(functionId), constants.AWAIT_TRANSACTION_MINED_MS, ); await expectTransactionFailedAsync( exchangeWrapper.fillOrderAsync(signedOrder, takerAddress), RevertReason.TransferFailed, ); }); }); }; describe('fillOrder reentrancy tests', () => reentrancyTest(constants.FUNCTIONS_WITH_MUTEX)); it('should throw if signature is invalid', async () => { signedOrder = await orderFactory.newSignedOrderAsync({ makerAssetAmount: Web3Wrapper.toBaseUnitAmount(new BigNumber(10), 18), }); const v = ethUtil.toBuffer(signedOrder.signature.slice(0, 4)); const invalidR = ethUtil.sha3('invalidR'); const invalidS = ethUtil.sha3('invalidS'); const signatureType = ethUtil.toBuffer(`0x${signedOrder.signature.slice(-2)}`); const invalidSigBuff = Buffer.concat([v, invalidR, invalidS, signatureType]); const invalidSigHex = `0x${invalidSigBuff.toString('hex')}`; signedOrder.signature = invalidSigHex; return expectTransactionFailedAsync( exchangeWrapper.fillOrderAsync(signedOrder, takerAddress), RevertReason.InvalidOrderSignature, ); }); it('should throw if no value is filled', async () => { signedOrder = await orderFactory.newSignedOrderAsync(); await exchangeWrapper.fillOrderAsync(signedOrder, takerAddress); return expectTransactionFailedAsync( exchangeWrapper.fillOrderAsync(signedOrder, takerAddress), RevertReason.OrderUnfillable, ); }); it('should revert if `isValidSignature` tries to update state when SignatureType=Wallet', async () => { const maliciousMakerAddress = maliciousWallet.address; await web3Wrapper.awaitTransactionSuccessAsync( await erc20TokenA.setBalance.sendTransactionAsync( maliciousMakerAddress, constants.INITIAL_ERC20_BALANCE, ), constants.AWAIT_TRANSACTION_MINED_MS, ); await web3Wrapper.awaitTransactionSuccessAsync( await maliciousWallet.approveERC20.sendTransactionAsync( erc20TokenA.address, erc20Proxy.address, constants.INITIAL_ERC20_ALLOWANCE, ), constants.AWAIT_TRANSACTION_MINED_MS, ); signedOrder = await orderFactory.newSignedOrderAsync({ makerAddress: maliciousMakerAddress, makerFee: constants.ZERO_AMOUNT, }); signedOrder.signature = `0x0${SignatureType.Wallet}`; await expectTransactionFailedAsync( exchangeWrapper.fillOrderAsync(signedOrder, takerAddress), RevertReason.WalletError, ); }); it('should revert if `isValidSignature` tries to update state when SignatureType=Validator', async () => { const isApproved = true; await web3Wrapper.awaitTransactionSuccessAsync( await exchange.setSignatureValidatorApproval.sendTransactionAsync( maliciousValidator.address, isApproved, { from: makerAddress }, ), constants.AWAIT_TRANSACTION_MINED_MS, ); signedOrder.signature = `${maliciousValidator.address}0${SignatureType.Validator}`; await expectTransactionFailedAsync( exchangeWrapper.fillOrderAsync(signedOrder, takerAddress), RevertReason.ValidatorError, ); }); it('should not emit transfer events for transfers where from == to', async () => { const txReceipt = await exchangeWrapper.fillOrderAsync(signedOrder, makerAddress); const logs = txReceipt.logs; const transferLogs = _.filter( logs, log => (log as LogWithDecodedArgs).event === 'Transfer', ); expect(transferLogs.length).to.be.equal(2); expect((transferLogs[0] as LogWithDecodedArgs).address).to.be.equal( zrxToken.address, ); expect((transferLogs[0] as LogWithDecodedArgs).args._from).to.be.equal( makerAddress, ); expect((transferLogs[0] as LogWithDecodedArgs).args._to).to.be.equal( feeRecipientAddress, ); expect( (transferLogs[0] as LogWithDecodedArgs).args._value, ).to.be.bignumber.equal(signedOrder.makerFee); expect((transferLogs[1] as LogWithDecodedArgs).address).to.be.equal( zrxToken.address, ); expect((transferLogs[1] as LogWithDecodedArgs).args._from).to.be.equal( makerAddress, ); expect((transferLogs[1] as LogWithDecodedArgs).args._to).to.be.equal( feeRecipientAddress, ); expect( (transferLogs[1] as LogWithDecodedArgs).args._value, ).to.be.bignumber.equal(signedOrder.takerFee); }); }); describe('Testing exchange of ERC20 tokens with no return values', () => { before(async () => { noReturnErc20Token = await DummyNoReturnERC20TokenContract.deployFrom0xArtifactAsync( artifacts.DummyNoReturnERC20Token, provider, txDefaults, constants.DUMMY_TOKEN_NAME, constants.DUMMY_TOKEN_SYMBOL, constants.DUMMY_TOKEN_DECIMALS, constants.DUMMY_TOKEN_TOTAL_SUPPLY, ); await web3Wrapper.awaitTransactionSuccessAsync( await noReturnErc20Token.setBalance.sendTransactionAsync(makerAddress, constants.INITIAL_ERC20_BALANCE), constants.AWAIT_TRANSACTION_MINED_MS, ); await web3Wrapper.awaitTransactionSuccessAsync( await noReturnErc20Token.approve.sendTransactionAsync( erc20Proxy.address, constants.INITIAL_ERC20_ALLOWANCE, { from: makerAddress }, ), constants.AWAIT_TRANSACTION_MINED_MS, ); }); it('should transfer the correct amounts when makerAssetAmount === takerAssetAmount', async () => { signedOrder = await orderFactory.newSignedOrderAsync({ makerAssetData: assetDataUtils.encodeERC20AssetData(noReturnErc20Token.address), makerAssetAmount: Web3Wrapper.toBaseUnitAmount(new BigNumber(100), 18), takerAssetAmount: Web3Wrapper.toBaseUnitAmount(new BigNumber(100), 18), }); const initialMakerBalanceA = await noReturnErc20Token.balanceOf.callAsync(makerAddress); const initialMakerBalanceB = await erc20TokenB.balanceOf.callAsync(makerAddress); const initialMakerZrxBalance = await zrxToken.balanceOf.callAsync(makerAddress); const initialTakerBalanceA = await noReturnErc20Token.balanceOf.callAsync(takerAddress); const initialTakerBalanceB = await erc20TokenB.balanceOf.callAsync(takerAddress); const initialTakerZrxBalance = await zrxToken.balanceOf.callAsync(takerAddress); const initialFeeRecipientZrxBalance = await zrxToken.balanceOf.callAsync(feeRecipientAddress); await exchangeWrapper.fillOrderAsync(signedOrder, takerAddress); const finalMakerBalanceA = await noReturnErc20Token.balanceOf.callAsync(makerAddress); const finalMakerBalanceB = await erc20TokenB.balanceOf.callAsync(makerAddress); const finalMakerZrxBalance = await zrxToken.balanceOf.callAsync(makerAddress); const finalTakerBalanceA = await noReturnErc20Token.balanceOf.callAsync(takerAddress); const finalTakerBalanceB = await erc20TokenB.balanceOf.callAsync(takerAddress); const finalTakerZrxBalance = await zrxToken.balanceOf.callAsync(takerAddress); const finalFeeRecipientZrxBalance = await zrxToken.balanceOf.callAsync(feeRecipientAddress); expect(finalMakerBalanceA).to.be.bignumber.equal(initialMakerBalanceA.minus(signedOrder.makerAssetAmount)); expect(finalMakerBalanceB).to.be.bignumber.equal(initialMakerBalanceB.plus(signedOrder.takerAssetAmount)); expect(finalTakerBalanceA).to.be.bignumber.equal(initialTakerBalanceA.plus(signedOrder.makerAssetAmount)); expect(finalTakerBalanceB).to.be.bignumber.equal(initialTakerBalanceB.minus(signedOrder.takerAssetAmount)); expect(finalMakerZrxBalance).to.be.bignumber.equal(initialMakerZrxBalance.minus(signedOrder.makerFee)); expect(finalTakerZrxBalance).to.be.bignumber.equal(initialTakerZrxBalance.minus(signedOrder.takerFee)); expect(finalFeeRecipientZrxBalance).to.be.bignumber.equal( initialFeeRecipientZrxBalance.plus(signedOrder.makerFee.plus(signedOrder.takerFee)), ); }); it('should transfer the correct amounts when makerAssetAmount > takerAssetAmount', async () => { signedOrder = await orderFactory.newSignedOrderAsync({ makerAssetData: assetDataUtils.encodeERC20AssetData(noReturnErc20Token.address), makerAssetAmount: Web3Wrapper.toBaseUnitAmount(new BigNumber(200), 18), takerAssetAmount: Web3Wrapper.toBaseUnitAmount(new BigNumber(100), 18), }); const initialMakerBalanceA = await noReturnErc20Token.balanceOf.callAsync(makerAddress); const initialMakerBalanceB = await erc20TokenB.balanceOf.callAsync(makerAddress); const initialMakerZrxBalance = await zrxToken.balanceOf.callAsync(makerAddress); const initialTakerBalanceA = await noReturnErc20Token.balanceOf.callAsync(takerAddress); const initialTakerBalanceB = await erc20TokenB.balanceOf.callAsync(takerAddress); const initialTakerZrxBalance = await zrxToken.balanceOf.callAsync(takerAddress); const initialFeeRecipientZrxBalance = await zrxToken.balanceOf.callAsync(feeRecipientAddress); await exchangeWrapper.fillOrderAsync(signedOrder, takerAddress); const finalMakerBalanceA = await noReturnErc20Token.balanceOf.callAsync(makerAddress); const finalMakerBalanceB = await erc20TokenB.balanceOf.callAsync(makerAddress); const finalMakerZrxBalance = await zrxToken.balanceOf.callAsync(makerAddress); const finalTakerBalanceA = await noReturnErc20Token.balanceOf.callAsync(takerAddress); const finalTakerBalanceB = await erc20TokenB.balanceOf.callAsync(takerAddress); const finalTakerZrxBalance = await zrxToken.balanceOf.callAsync(takerAddress); const finalFeeRecipientZrxBalance = await zrxToken.balanceOf.callAsync(feeRecipientAddress); expect(finalMakerBalanceA).to.be.bignumber.equal(initialMakerBalanceA.minus(signedOrder.makerAssetAmount)); expect(finalMakerBalanceB).to.be.bignumber.equal(initialMakerBalanceB.plus(signedOrder.takerAssetAmount)); expect(finalTakerBalanceA).to.be.bignumber.equal(initialTakerBalanceA.plus(signedOrder.makerAssetAmount)); expect(finalTakerBalanceB).to.be.bignumber.equal(initialTakerBalanceB.minus(signedOrder.takerAssetAmount)); expect(finalMakerZrxBalance).to.be.bignumber.equal(initialMakerZrxBalance.minus(signedOrder.makerFee)); expect(finalTakerZrxBalance).to.be.bignumber.equal(initialTakerZrxBalance.minus(signedOrder.takerFee)); expect(finalFeeRecipientZrxBalance).to.be.bignumber.equal( initialFeeRecipientZrxBalance.plus(signedOrder.makerFee.plus(signedOrder.takerFee)), ); }); it('should transfer the correct amounts when makerAssetAmount < takerAssetAmount', async () => { signedOrder = await orderFactory.newSignedOrderAsync({ makerAssetData: assetDataUtils.encodeERC20AssetData(noReturnErc20Token.address), makerAssetAmount: Web3Wrapper.toBaseUnitAmount(new BigNumber(100), 18), takerAssetAmount: Web3Wrapper.toBaseUnitAmount(new BigNumber(200), 18), }); const initialMakerBalanceA = await noReturnErc20Token.balanceOf.callAsync(makerAddress); const initialMakerBalanceB = await erc20TokenB.balanceOf.callAsync(makerAddress); const initialMakerZrxBalance = await zrxToken.balanceOf.callAsync(makerAddress); const initialTakerBalanceA = await noReturnErc20Token.balanceOf.callAsync(takerAddress); const initialTakerBalanceB = await erc20TokenB.balanceOf.callAsync(takerAddress); const initialTakerZrxBalance = await zrxToken.balanceOf.callAsync(takerAddress); const initialFeeRecipientZrxBalance = await zrxToken.balanceOf.callAsync(feeRecipientAddress); await exchangeWrapper.fillOrderAsync(signedOrder, takerAddress); const finalMakerBalanceA = await noReturnErc20Token.balanceOf.callAsync(makerAddress); const finalMakerBalanceB = await erc20TokenB.balanceOf.callAsync(makerAddress); const finalMakerZrxBalance = await zrxToken.balanceOf.callAsync(makerAddress); const finalTakerBalanceA = await noReturnErc20Token.balanceOf.callAsync(takerAddress); const finalTakerBalanceB = await erc20TokenB.balanceOf.callAsync(takerAddress); const finalTakerZrxBalance = await zrxToken.balanceOf.callAsync(takerAddress); const finalFeeRecipientZrxBalance = await zrxToken.balanceOf.callAsync(feeRecipientAddress); expect(finalMakerBalanceA).to.be.bignumber.equal(initialMakerBalanceA.minus(signedOrder.makerAssetAmount)); expect(finalMakerBalanceB).to.be.bignumber.equal(initialMakerBalanceB.plus(signedOrder.takerAssetAmount)); expect(finalTakerBalanceA).to.be.bignumber.equal(initialTakerBalanceA.plus(signedOrder.makerAssetAmount)); expect(finalTakerBalanceB).to.be.bignumber.equal(initialTakerBalanceB.minus(signedOrder.takerAssetAmount)); expect(finalMakerZrxBalance).to.be.bignumber.equal(initialMakerZrxBalance.minus(signedOrder.makerFee)); expect(finalTakerZrxBalance).to.be.bignumber.equal(initialTakerZrxBalance.minus(signedOrder.takerFee)); expect(finalFeeRecipientZrxBalance).to.be.bignumber.equal( initialFeeRecipientZrxBalance.plus(signedOrder.makerFee.plus(signedOrder.takerFee)), ); }); }); describe('cancelOrder', () => { beforeEach(async () => { erc20Balances = await erc20Wrapper.getBalancesAsync(); signedOrder = await orderFactory.newSignedOrderAsync(); }); it('should throw if not sent by maker', async () => { return expectTransactionFailedAsync( exchangeWrapper.cancelOrderAsync(signedOrder, takerAddress), RevertReason.InvalidMaker, ); }); it('should throw if makerAssetAmount is 0', async () => { signedOrder = await orderFactory.newSignedOrderAsync({ makerAssetAmount: new BigNumber(0), }); return expectTransactionFailedAsync( exchangeWrapper.cancelOrderAsync(signedOrder, makerAddress), RevertReason.OrderUnfillable, ); }); it('should throw if takerAssetAmount is 0', async () => { signedOrder = await orderFactory.newSignedOrderAsync({ takerAssetAmount: new BigNumber(0), }); return expectTransactionFailedAsync( exchangeWrapper.cancelOrderAsync(signedOrder, makerAddress), RevertReason.OrderUnfillable, ); }); it('should be able to cancel a full order', async () => { await exchangeWrapper.cancelOrderAsync(signedOrder, makerAddress); return expectTransactionFailedAsync( exchangeWrapper.fillOrderAsync(signedOrder, takerAddress, { takerAssetFillAmount: signedOrder.takerAssetAmount.div(2), }), RevertReason.OrderUnfillable, ); }); it('should log 1 event with correct arguments', async () => { const res = await exchangeWrapper.cancelOrderAsync(signedOrder, makerAddress); expect(res.logs).to.have.length(1); const log = res.logs[0] as LogWithDecodedArgs; const logArgs = log.args; expect(signedOrder.makerAddress).to.be.equal(logArgs.makerAddress); expect(signedOrder.makerAddress).to.be.equal(logArgs.senderAddress); expect(signedOrder.feeRecipientAddress).to.be.equal(logArgs.feeRecipientAddress); expect(signedOrder.makerAssetData).to.be.equal(logArgs.makerAssetData); expect(signedOrder.takerAssetData).to.be.equal(logArgs.takerAssetData); expect(orderHashUtils.getOrderHashHex(signedOrder)).to.be.equal(logArgs.orderHash); }); it('should throw if already cancelled', async () => { await exchangeWrapper.cancelOrderAsync(signedOrder, makerAddress); return expectTransactionFailedAsync( exchangeWrapper.cancelOrderAsync(signedOrder, makerAddress), RevertReason.OrderUnfillable, ); }); it('should throw if order is expired', async () => { const currentTimestamp = await getLatestBlockTimestampAsync(); signedOrder = await orderFactory.newSignedOrderAsync({ expirationTimeSeconds: new BigNumber(currentTimestamp).sub(10), }); return expectTransactionFailedAsync( exchangeWrapper.cancelOrderAsync(signedOrder, makerAddress), RevertReason.OrderUnfillable, ); }); it('should throw if rounding error is greater than 0.1%', async () => { signedOrder = await orderFactory.newSignedOrderAsync({ makerAssetAmount: new BigNumber(1001), takerAssetAmount: new BigNumber(3), }); const fillTakerAssetAmount1 = new BigNumber(2); await exchangeWrapper.fillOrderAsync(signedOrder, takerAddress, { takerAssetFillAmount: fillTakerAssetAmount1, }); const fillTakerAssetAmount2 = new BigNumber(1); return expectTransactionFailedAsync( exchangeWrapper.fillOrderAsync(signedOrder, takerAddress, { takerAssetFillAmount: fillTakerAssetAmount2, }), RevertReason.RoundingError, ); }); }); describe('cancelOrdersUpTo', () => { it('should fail to set orderEpoch less than current orderEpoch', async () => { const orderEpoch = new BigNumber(1); await exchangeWrapper.cancelOrdersUpToAsync(orderEpoch, makerAddress); const lesserOrderEpoch = new BigNumber(0); return expectTransactionFailedAsync( exchangeWrapper.cancelOrdersUpToAsync(lesserOrderEpoch, makerAddress), RevertReason.InvalidNewOrderEpoch, ); }); it('should fail to set orderEpoch equal to existing orderEpoch', async () => { const orderEpoch = new BigNumber(1); await exchangeWrapper.cancelOrdersUpToAsync(orderEpoch, makerAddress); return expectTransactionFailedAsync( exchangeWrapper.cancelOrdersUpToAsync(orderEpoch, makerAddress), RevertReason.InvalidNewOrderEpoch, ); }); it('should cancel only orders with a orderEpoch less than existing orderEpoch', async () => { // Cancel all transactions with a orderEpoch less than 1 const orderEpoch = new BigNumber(1); await exchangeWrapper.cancelOrdersUpToAsync(orderEpoch, makerAddress); // Create 3 orders with orderEpoch values: 0,1,2,3 // Since we cancelled with orderEpoch=1, orders with orderEpoch<=1 will not be processed erc20Balances = await erc20Wrapper.getBalancesAsync(); const signedOrders = [ await orderFactory.newSignedOrderAsync({ makerAssetAmount: Web3Wrapper.toBaseUnitAmount(new BigNumber(9), 18), takerAssetAmount: Web3Wrapper.toBaseUnitAmount(new BigNumber(9), 18), salt: new BigNumber(0), }), await orderFactory.newSignedOrderAsync({ makerAssetAmount: Web3Wrapper.toBaseUnitAmount(new BigNumber(79), 18), takerAssetAmount: Web3Wrapper.toBaseUnitAmount(new BigNumber(79), 18), salt: new BigNumber(1), }), await orderFactory.newSignedOrderAsync({ makerAssetAmount: Web3Wrapper.toBaseUnitAmount(new BigNumber(979), 18), takerAssetAmount: Web3Wrapper.toBaseUnitAmount(new BigNumber(979), 18), salt: new BigNumber(2), }), await orderFactory.newSignedOrderAsync({ makerAssetAmount: Web3Wrapper.toBaseUnitAmount(new BigNumber(7979), 18), takerAssetAmount: Web3Wrapper.toBaseUnitAmount(new BigNumber(7979), 18), salt: new BigNumber(3), }), ]; await exchangeWrapper.batchFillOrdersNoThrowAsync(signedOrders, takerAddress, { // HACK(albrow): We need to hardcode the gas estimate here because // the Geth gas estimator doesn't work with the way we use // delegatecall and swallow errors. gas: 600000, }); const newBalances = await erc20Wrapper.getBalancesAsync(); const fillMakerAssetAmount = signedOrders[2].makerAssetAmount.add(signedOrders[3].makerAssetAmount); const fillTakerAssetAmount = signedOrders[2].takerAssetAmount.add(signedOrders[3].takerAssetAmount); const makerFee = signedOrders[2].makerFee.add(signedOrders[3].makerFee); const takerFee = signedOrders[2].takerFee.add(signedOrders[3].takerFee); expect(newBalances[makerAddress][defaultMakerAssetAddress]).to.be.bignumber.equal( erc20Balances[makerAddress][defaultMakerAssetAddress].minus(fillMakerAssetAmount), ); expect(newBalances[makerAddress][defaultTakerAssetAddress]).to.be.bignumber.equal( erc20Balances[makerAddress][defaultTakerAssetAddress].add(fillTakerAssetAmount), ); expect(newBalances[makerAddress][zrxToken.address]).to.be.bignumber.equal( erc20Balances[makerAddress][zrxToken.address].minus(makerFee), ); expect(newBalances[takerAddress][defaultTakerAssetAddress]).to.be.bignumber.equal( erc20Balances[takerAddress][defaultTakerAssetAddress].minus(fillTakerAssetAmount), ); expect(newBalances[takerAddress][defaultMakerAssetAddress]).to.be.bignumber.equal( erc20Balances[takerAddress][defaultMakerAssetAddress].add(fillMakerAssetAmount), ); expect(newBalances[takerAddress][zrxToken.address]).to.be.bignumber.equal( erc20Balances[takerAddress][zrxToken.address].minus(takerFee), ); expect(newBalances[feeRecipientAddress][zrxToken.address]).to.be.bignumber.equal( erc20Balances[feeRecipientAddress][zrxToken.address].add(makerFee.add(takerFee)), ); }); }); describe('Testing Exchange of ERC721 Tokens', () => { it('should throw when maker does not own the token with id makerAssetId', async () => { // Construct Exchange parameters const makerAssetId = erc721TakerAssetIds[0]; const takerAssetId = erc721TakerAssetIds[1]; signedOrder = await orderFactory.newSignedOrderAsync({ makerAssetAmount: new BigNumber(1), takerAssetAmount: new BigNumber(1), makerAssetData: assetDataUtils.encodeERC721AssetData(erc721Token.address, makerAssetId), takerAssetData: assetDataUtils.encodeERC721AssetData(erc721Token.address, takerAssetId), }); // Verify pre-conditions const initialOwnerMakerAsset = await erc721Token.ownerOf.callAsync(makerAssetId); expect(initialOwnerMakerAsset).to.be.bignumber.not.equal(makerAddress); const initialOwnerTakerAsset = await erc721Token.ownerOf.callAsync(takerAssetId); expect(initialOwnerTakerAsset).to.be.bignumber.equal(takerAddress); // Call Exchange const takerAssetFillAmount = signedOrder.takerAssetAmount; return expectTransactionFailedAsync( exchangeWrapper.fillOrderAsync(signedOrder, takerAddress, { takerAssetFillAmount }), RevertReason.TransferFailed, ); }); it('should throw when taker does not own the token with id takerAssetId', async () => { // Construct Exchange parameters const makerAssetId = erc721MakerAssetIds[0]; const takerAssetId = erc721MakerAssetIds[1]; signedOrder = await orderFactory.newSignedOrderAsync({ makerAssetAmount: new BigNumber(1), takerAssetAmount: new BigNumber(1), makerAssetData: assetDataUtils.encodeERC721AssetData(erc721Token.address, makerAssetId), takerAssetData: assetDataUtils.encodeERC721AssetData(erc721Token.address, takerAssetId), }); // Verify pre-conditions const initialOwnerMakerAsset = await erc721Token.ownerOf.callAsync(makerAssetId); expect(initialOwnerMakerAsset).to.be.bignumber.equal(makerAddress); const initialOwnerTakerAsset = await erc721Token.ownerOf.callAsync(takerAssetId); expect(initialOwnerTakerAsset).to.be.bignumber.not.equal(takerAddress); // Call Exchange const takerAssetFillAmount = signedOrder.takerAssetAmount; return expectTransactionFailedAsync( exchangeWrapper.fillOrderAsync(signedOrder, takerAddress, { takerAssetFillAmount }), RevertReason.TransferFailed, ); }); it('should throw when makerAssetAmount is greater than 1', async () => { // Construct Exchange parameters const makerAssetId = erc721MakerAssetIds[0]; const takerAssetId = erc721TakerAssetIds[0]; signedOrder = await orderFactory.newSignedOrderAsync({ makerAssetAmount: new BigNumber(2), takerAssetAmount: new BigNumber(1), makerAssetData: assetDataUtils.encodeERC721AssetData(erc721Token.address, makerAssetId), takerAssetData: assetDataUtils.encodeERC721AssetData(erc721Token.address, takerAssetId), }); // Verify pre-conditions const initialOwnerMakerAsset = await erc721Token.ownerOf.callAsync(makerAssetId); expect(initialOwnerMakerAsset).to.be.bignumber.equal(makerAddress); const initialOwnerTakerAsset = await erc721Token.ownerOf.callAsync(takerAssetId); expect(initialOwnerTakerAsset).to.be.bignumber.equal(takerAddress); // Call Exchange const takerAssetFillAmount = signedOrder.takerAssetAmount; return expectTransactionFailedAsync( exchangeWrapper.fillOrderAsync(signedOrder, takerAddress, { takerAssetFillAmount }), RevertReason.InvalidAmount, ); }); it('should throw when takerAssetAmount is greater than 1', async () => { // Construct Exchange parameters const makerAssetId = erc721MakerAssetIds[0]; const takerAssetId = erc721TakerAssetIds[0]; signedOrder = await orderFactory.newSignedOrderAsync({ makerAssetAmount: new BigNumber(1), takerAssetAmount: new BigNumber(500), makerAssetData: assetDataUtils.encodeERC721AssetData(erc721Token.address, makerAssetId), takerAssetData: assetDataUtils.encodeERC721AssetData(erc721Token.address, takerAssetId), }); // Verify pre-conditions const initialOwnerMakerAsset = await erc721Token.ownerOf.callAsync(makerAssetId); expect(initialOwnerMakerAsset).to.be.bignumber.equal(makerAddress); const initialOwnerTakerAsset = await erc721Token.ownerOf.callAsync(takerAssetId); expect(initialOwnerTakerAsset).to.be.bignumber.equal(takerAddress); // Call Exchange const takerAssetFillAmount = signedOrder.takerAssetAmount; return expectTransactionFailedAsync( exchangeWrapper.fillOrderAsync(signedOrder, takerAddress, { takerAssetFillAmount }), RevertReason.InvalidAmount, ); }); it('should throw on partial fill', async () => { // Construct Exchange parameters const makerAssetId = erc721MakerAssetIds[0]; signedOrder = await orderFactory.newSignedOrderAsync({ makerAssetAmount: new BigNumber(1), takerAssetAmount: Web3Wrapper.toBaseUnitAmount(new BigNumber(100), 18), makerAssetData: assetDataUtils.encodeERC721AssetData(erc721Token.address, makerAssetId), takerAssetData: assetDataUtils.encodeERC20AssetData(defaultTakerAssetAddress), }); // Call Exchange const takerAssetFillAmount = signedOrder.takerAssetAmount.div(2); return expectTransactionFailedAsync( exchangeWrapper.fillOrderAsync(signedOrder, takerAddress, { takerAssetFillAmount }), RevertReason.RoundingError, ); }); }); describe('getOrderInfo', () => { beforeEach(async () => { signedOrder = await orderFactory.newSignedOrderAsync(); }); it('should return the correct orderInfo for an unfilled valid order', async () => { const orderInfo = await exchangeWrapper.getOrderInfoAsync(signedOrder); const expectedOrderHash = orderHashUtils.getOrderHashHex(signedOrder); const expectedTakerAssetFilledAmount = new BigNumber(0); const expectedOrderStatus = OrderStatus.FILLABLE; expect(orderInfo.orderHash).to.be.equal(expectedOrderHash); expect(orderInfo.orderTakerAssetFilledAmount).to.be.bignumber.equal(expectedTakerAssetFilledAmount); expect(orderInfo.orderStatus).to.equal(expectedOrderStatus); }); it('should return the correct orderInfo for a fully filled order', async () => { await exchangeWrapper.fillOrderAsync(signedOrder, takerAddress); const orderInfo = await exchangeWrapper.getOrderInfoAsync(signedOrder); const expectedOrderHash = orderHashUtils.getOrderHashHex(signedOrder); const expectedTakerAssetFilledAmount = signedOrder.takerAssetAmount; const expectedOrderStatus = OrderStatus.FULLY_FILLED; expect(orderInfo.orderHash).to.be.equal(expectedOrderHash); expect(orderInfo.orderTakerAssetFilledAmount).to.be.bignumber.equal(expectedTakerAssetFilledAmount); expect(orderInfo.orderStatus).to.equal(expectedOrderStatus); }); it('should return the correct orderInfo for a partially filled order', async () => { const takerAssetFillAmount = signedOrder.takerAssetAmount.div(2); await exchangeWrapper.fillOrderAsync(signedOrder, takerAddress, { takerAssetFillAmount }); const orderInfo = await exchangeWrapper.getOrderInfoAsync(signedOrder); const expectedOrderHash = orderHashUtils.getOrderHashHex(signedOrder); const expectedTakerAssetFilledAmount = takerAssetFillAmount; const expectedOrderStatus = OrderStatus.FILLABLE; expect(orderInfo.orderHash).to.be.equal(expectedOrderHash); expect(orderInfo.orderTakerAssetFilledAmount).to.be.bignumber.equal(expectedTakerAssetFilledAmount); expect(orderInfo.orderStatus).to.equal(expectedOrderStatus); }); it('should return the correct orderInfo for a cancelled and unfilled order', async () => { await exchangeWrapper.cancelOrderAsync(signedOrder, makerAddress); const orderInfo = await exchangeWrapper.getOrderInfoAsync(signedOrder); const expectedOrderHash = orderHashUtils.getOrderHashHex(signedOrder); const expectedTakerAssetFilledAmount = new BigNumber(0); const expectedOrderStatus = OrderStatus.CANCELLED; expect(orderInfo.orderHash).to.be.equal(expectedOrderHash); expect(orderInfo.orderTakerAssetFilledAmount).to.be.bignumber.equal(expectedTakerAssetFilledAmount); expect(orderInfo.orderStatus).to.equal(expectedOrderStatus); }); it('should return the correct orderInfo for a cancelled and partially filled order', async () => { const takerAssetFillAmount = signedOrder.takerAssetAmount.div(2); await exchangeWrapper.fillOrderAsync(signedOrder, takerAddress, { takerAssetFillAmount }); await exchangeWrapper.cancelOrderAsync(signedOrder, makerAddress); const orderInfo = await exchangeWrapper.getOrderInfoAsync(signedOrder); const expectedOrderHash = orderHashUtils.getOrderHashHex(signedOrder); const expectedTakerAssetFilledAmount = takerAssetFillAmount; const expectedOrderStatus = OrderStatus.CANCELLED; expect(orderInfo.orderHash).to.be.equal(expectedOrderHash); expect(orderInfo.orderTakerAssetFilledAmount).to.be.bignumber.equal(expectedTakerAssetFilledAmount); expect(orderInfo.orderStatus).to.equal(expectedOrderStatus); }); it('should return the correct orderInfo for an expired and unfilled order', async () => { const currentTimestamp = await getLatestBlockTimestampAsync(); const timeUntilExpiration = signedOrder.expirationTimeSeconds.minus(currentTimestamp).toNumber(); await increaseTimeAndMineBlockAsync(timeUntilExpiration); const orderInfo = await exchangeWrapper.getOrderInfoAsync(signedOrder); const expectedOrderHash = orderHashUtils.getOrderHashHex(signedOrder); const expectedTakerAssetFilledAmount = new BigNumber(0); const expectedOrderStatus = OrderStatus.EXPIRED; expect(orderInfo.orderHash).to.be.equal(expectedOrderHash); expect(orderInfo.orderTakerAssetFilledAmount).to.be.bignumber.equal(expectedTakerAssetFilledAmount); expect(orderInfo.orderStatus).to.equal(expectedOrderStatus); }); it('should return the correct orderInfo for an expired and partially filled order', async () => { const takerAssetFillAmount = signedOrder.takerAssetAmount.div(2); await exchangeWrapper.fillOrderAsync(signedOrder, takerAddress, { takerAssetFillAmount }); const currentTimestamp = await getLatestBlockTimestampAsync(); const timeUntilExpiration = signedOrder.expirationTimeSeconds.minus(currentTimestamp).toNumber(); await increaseTimeAndMineBlockAsync(timeUntilExpiration); const orderInfo = await exchangeWrapper.getOrderInfoAsync(signedOrder); const expectedOrderHash = orderHashUtils.getOrderHashHex(signedOrder); const expectedTakerAssetFilledAmount = takerAssetFillAmount; const expectedOrderStatus = OrderStatus.EXPIRED; expect(orderInfo.orderHash).to.be.equal(expectedOrderHash); expect(orderInfo.orderTakerAssetFilledAmount).to.be.bignumber.equal(expectedTakerAssetFilledAmount); expect(orderInfo.orderStatus).to.equal(expectedOrderStatus); }); it('should return the correct orderInfo for an expired and fully filled order', async () => { await exchangeWrapper.fillOrderAsync(signedOrder, takerAddress); const currentTimestamp = await getLatestBlockTimestampAsync(); const timeUntilExpiration = signedOrder.expirationTimeSeconds.minus(currentTimestamp).toNumber(); await increaseTimeAndMineBlockAsync(timeUntilExpiration); const orderInfo = await exchangeWrapper.getOrderInfoAsync(signedOrder); const expectedOrderHash = orderHashUtils.getOrderHashHex(signedOrder); const expectedTakerAssetFilledAmount = signedOrder.takerAssetAmount; // FULLY_FILLED takes precedence over EXPIRED const expectedOrderStatus = OrderStatus.FULLY_FILLED; expect(orderInfo.orderHash).to.be.equal(expectedOrderHash); expect(orderInfo.orderTakerAssetFilledAmount).to.be.bignumber.equal(expectedTakerAssetFilledAmount); expect(orderInfo.orderStatus).to.equal(expectedOrderStatus); }); it('should return the correct orderInfo for an order with a makerAssetAmount of 0', async () => { signedOrder = await orderFactory.newSignedOrderAsync({ makerAssetAmount: new BigNumber(0) }); const orderInfo = await exchangeWrapper.getOrderInfoAsync(signedOrder); const expectedOrderHash = orderHashUtils.getOrderHashHex(signedOrder); const expectedTakerAssetFilledAmount = new BigNumber(0); const expectedOrderStatus = OrderStatus.INVALID_MAKER_ASSET_AMOUNT; expect(orderInfo.orderHash).to.be.equal(expectedOrderHash); expect(orderInfo.orderTakerAssetFilledAmount).to.be.bignumber.equal(expectedTakerAssetFilledAmount); expect(orderInfo.orderStatus).to.equal(expectedOrderStatus); }); it('should return the correct orderInfo for an order with a takerAssetAmount of 0', async () => { signedOrder = await orderFactory.newSignedOrderAsync({ takerAssetAmount: new BigNumber(0) }); const orderInfo = await exchangeWrapper.getOrderInfoAsync(signedOrder); const expectedOrderHash = orderHashUtils.getOrderHashHex(signedOrder); const expectedTakerAssetFilledAmount = new BigNumber(0); const expectedOrderStatus = OrderStatus.INVALID_TAKER_ASSET_AMOUNT; expect(orderInfo.orderHash).to.be.equal(expectedOrderHash); expect(orderInfo.orderTakerAssetFilledAmount).to.be.bignumber.equal(expectedTakerAssetFilledAmount); expect(orderInfo.orderStatus).to.equal(expectedOrderStatus); }); }); }); // tslint:disable:max-file-line-count // tslint:enable:no-unnecessary-type-assertion