import { BlockParam, BlockRange, DecodedLogEvent, ECSignature, ExchangeContractEventArgs, ExchangeEvents, IndexedFilterValues, LogCancelContractEventArgs, LogFillContractEventArgs, LogWithDecodedArgs, Order, SignedOrder, Token as ZeroExToken, TransactionReceiptWithDecodedLogs, ZeroEx, } from '0x.js'; import { InjectedWeb3Subprovider, ledgerEthereumBrowserClientFactoryAsync, LedgerSubprovider, LedgerWalletSubprovider, RedundantRPCSubprovider, } from '@0xproject/subproviders'; import { BigNumber, intervalUtils, promisify } from '@0xproject/utils'; import * as _ from 'lodash'; import * as React from 'react'; import contract = require('truffle-contract'); import { TokenSendCompleted } from 'ts/components/flash_messages/token_send_completed'; import { TransactionSubmitted } from 'ts/components/flash_messages/transaction_submitted'; import { trackedTokenStorage } from 'ts/local_storage/tracked_token_storage'; import { tradeHistoryStorage } from 'ts/local_storage/trade_history_storage'; import { Dispatcher } from 'ts/redux/dispatcher'; import { BlockchainCallErrs, BlockchainErrs, ContractInstance, EtherscanLinkSuffixes, ProviderType, Side, SideToAssetToken, SignatureData, Token, TokenByAddress, } from 'ts/types'; import { configs } from 'ts/utils/configs'; import { constants } from 'ts/utils/constants'; import { errorReporter } from 'ts/utils/error_reporter'; import { utils } from 'ts/utils/utils'; import { Web3Wrapper } from 'ts/web3_wrapper'; import Web3 = require('web3'); import ProviderEngine = require('web3-provider-engine'); import FilterSubprovider = require('web3-provider-engine/subproviders/filters'); import * as MintableArtifacts from '../contracts/Mintable.json'; const BLOCK_NUMBER_BACK_TRACK = 50; const GWEI_IN_WEI = 1000000000; export class Blockchain { public networkId: number; public nodeVersion: string; private _zeroEx: ZeroEx; private _dispatcher: Dispatcher; private _web3Wrapper?: Web3Wrapper; private _exchangeAddress: string; private _userAddress: string; private _cachedProvider: Web3.Provider; private _cachedProviderNetworkId: number; private _ledgerSubprovider: LedgerWalletSubprovider; private _defaultGasPrice: BigNumber; private static async _onPageLoadAsync(): Promise { if (document.readyState === 'complete') { return; // Already loaded } return new Promise((resolve, reject) => { window.onload = () => resolve(); }); } private static _getNameGivenProvider(provider: Web3.Provider): string { if (!_.isUndefined((provider as any).isMetaMask)) { return constants.PROVIDER_NAME_METAMASK; } // HACK: We use the fact that Parity Signer's provider is an instance of their // internal `Web3FrameProvider` class. const isParitySigner = _.startsWith(provider.constructor.toString(), 'function Web3FrameProvider'); if (isParitySigner) { return constants.PROVIDER_NAME_PARITY_SIGNER; } return constants.PROVIDER_NAME_GENERIC; } private static async _getProviderAsync(injectedWeb3: Web3, networkIdIfExists: number) { const doesInjectedWeb3Exist = !_.isUndefined(injectedWeb3); const publicNodeUrlsIfExistsForNetworkId = configs.PUBLIC_NODE_URLS_BY_NETWORK_ID[networkIdIfExists]; const isPublicNodeAvailableForNetworkId = !_.isUndefined(publicNodeUrlsIfExistsForNetworkId); let provider; if (doesInjectedWeb3Exist && isPublicNodeAvailableForNetworkId) { // We catch all requests involving a users account and send it to the injectedWeb3 // instance. All other requests go to the public hosted node. provider = new ProviderEngine(); provider.addProvider(new InjectedWeb3Subprovider(injectedWeb3.currentProvider)); provider.addProvider(new FilterSubprovider()); provider.addProvider(new RedundantRPCSubprovider(publicNodeUrlsIfExistsForNetworkId)); provider.start(); } else if (doesInjectedWeb3Exist) { // Since no public node for this network, all requests go to injectedWeb3 instance provider = injectedWeb3.currentProvider; } else { // If no injectedWeb3 instance, all requests fallback to our public hosted mainnet/testnet node // We do this so that users can still browse the 0x Portal DApp even if they do not have web3 // injected into their browser. provider = new ProviderEngine(); provider.addProvider(new FilterSubprovider()); const networkId = configs.IS_MAINNET_ENABLED ? constants.NETWORK_ID_MAINNET : constants.NETWORK_ID_KOVAN; provider.addProvider(new RedundantRPCSubprovider(configs.PUBLIC_NODE_URLS_BY_NETWORK_ID[networkId])); provider.start(); } return provider; } constructor(dispatcher: Dispatcher, isSalePage: boolean = false) { this._dispatcher = dispatcher; this._userAddress = ''; const defaultGasPrice = GWEI_IN_WEI * 30; this._defaultGasPrice = new BigNumber(defaultGasPrice); // tslint:disable-next-line:no-floating-promises this._updateDefaultGasPriceAsync(); // tslint:disable-next-line:no-floating-promises this._onPageLoadInitFireAndForgetAsync(); } public async networkIdUpdatedFireAndForgetAsync(newNetworkId: number) { const isConnected = !_.isUndefined(newNetworkId); if (!isConnected) { this.networkId = newNetworkId; this._dispatcher.encounteredBlockchainError(BlockchainErrs.DisconnectedFromEthereumNode); this._dispatcher.updateShouldBlockchainErrDialogBeOpen(true); } else if (this.networkId !== newNetworkId) { this.networkId = newNetworkId; this._dispatcher.encounteredBlockchainError(BlockchainErrs.NoError); await this.fetchTokenInformationAsync(); await this._rehydrateStoreWithContractEvents(); } } public async userAddressUpdatedFireAndForgetAsync(newUserAddress: string) { if (this._userAddress !== newUserAddress) { this._userAddress = newUserAddress; await this.fetchTokenInformationAsync(); await this._rehydrateStoreWithContractEvents(); } } public async nodeVersionUpdatedFireAndForgetAsync(nodeVersion: string) { if (this.nodeVersion !== nodeVersion) { this.nodeVersion = nodeVersion; } } public async isAddressInTokenRegistryAsync(tokenAddress: string): Promise { utils.assert(!_.isUndefined(this._zeroEx), 'ZeroEx must be instantiated.'); // HACK: temporarily whitelist the new WETH token address `as if` they were // already in the tokenRegistry. // TODO: Remove this hack once we've updated the TokenRegistries // Airtable task: https://airtable.com/tblFe0Q9JuKJPYbTn/viwsOG2Y97qdIeCIO/recv3VGmIorFzHBVz if (configs.SHOULD_DEPRECATE_OLD_WETH_TOKEN && tokenAddress === configs.NEW_WRAPPED_ETHERS[this.networkId]) { return true; } const tokenIfExists = await this._zeroEx.tokenRegistry.getTokenIfExistsAsync(tokenAddress); return !_.isUndefined(tokenIfExists); } public getLedgerDerivationPathIfExists(): string { if (_.isUndefined(this._ledgerSubprovider)) { return undefined; } const path = this._ledgerSubprovider.getPath(); return path; } public updateLedgerDerivationPathIfExists(path: string) { if (_.isUndefined(this._ledgerSubprovider)) { return; // noop } this._ledgerSubprovider.setPath(path); } public updateLedgerDerivationIndex(pathIndex: number) { if (_.isUndefined(this._ledgerSubprovider)) { return; // noop } this._ledgerSubprovider.setPathIndex(pathIndex); } public async updateProviderToLedgerAsync(networkId: number) { utils.assert(!_.isUndefined(this._zeroEx), 'ZeroEx must be instantiated.'); const isU2FSupported = await utils.isU2FSupportedAsync(); if (!isU2FSupported) { throw new Error('Cannot update providerType to LEDGER without U2F support'); } // Cache injected provider so that we can switch the user back to it easily if (_.isUndefined(this._cachedProvider)) { this._cachedProvider = this._web3Wrapper.getProviderObj(); this._cachedProviderNetworkId = this.networkId; } this._web3Wrapper.destroy(); this._userAddress = ''; this._dispatcher.updateUserAddress(''); // Clear old userAddress const provider = new ProviderEngine(); const ledgerWalletConfigs = { networkId, ledgerEthereumClientFactoryAsync: ledgerEthereumBrowserClientFactoryAsync, }; this._ledgerSubprovider = new LedgerSubprovider(ledgerWalletConfigs); provider.addProvider(this._ledgerSubprovider); provider.addProvider(new FilterSubprovider()); provider.addProvider(new RedundantRPCSubprovider(configs.PUBLIC_NODE_URLS_BY_NETWORK_ID[networkId])); provider.start(); this.networkId = networkId; this._dispatcher.updateNetworkId(this.networkId); const shouldPollUserAddress = false; this._web3Wrapper = new Web3Wrapper(this._dispatcher, provider, this.networkId, shouldPollUserAddress); this._zeroEx.setProvider(provider, this.networkId); await this._postInstantiationOrUpdatingProviderZeroExAsync(); this._web3Wrapper.startEmittingNetworkConnectionAndUserBalanceState(); this._dispatcher.updateProviderType(ProviderType.Ledger); } public async updateProviderToInjectedAsync() { utils.assert(!_.isUndefined(this._zeroEx), 'ZeroEx must be instantiated.'); if (_.isUndefined(this._cachedProvider)) { return; // Going from injected to injected, so we noop } this._web3Wrapper.destroy(); const provider = this._cachedProvider; this.networkId = this._cachedProviderNetworkId; const shouldPollUserAddress = true; this._web3Wrapper = new Web3Wrapper(this._dispatcher, provider, this.networkId, shouldPollUserAddress); this._userAddress = await this._web3Wrapper.getFirstAccountIfExistsAsync(); this._zeroEx.setProvider(provider, this.networkId); await this._postInstantiationOrUpdatingProviderZeroExAsync(); await this.fetchTokenInformationAsync(); this._web3Wrapper.startEmittingNetworkConnectionAndUserBalanceState(); this._dispatcher.updateProviderType(ProviderType.Injected); delete this._ledgerSubprovider; delete this._cachedProvider; } public async setProxyAllowanceAsync(token: Token, amountInBaseUnits: BigNumber): Promise { utils.assert(this.isValidAddress(token.address), BlockchainCallErrs.TokenAddressIsInvalid); utils.assert(this._doesUserAddressExist(), BlockchainCallErrs.UserHasNoAssociatedAddresses); utils.assert(!_.isUndefined(this._zeroEx), 'ZeroEx must be instantiated.'); this._showFlashMessageIfLedger(); const txHash = await this._zeroEx.token.setProxyAllowanceAsync( token.address, this._userAddress, amountInBaseUnits, { gasPrice: this._defaultGasPrice, }, ); await this._showEtherScanLinkAndAwaitTransactionMinedAsync(txHash); } public async transferAsync(token: Token, toAddress: string, amountInBaseUnits: BigNumber): Promise { this._showFlashMessageIfLedger(); const txHash = await this._zeroEx.token.transferAsync( token.address, this._userAddress, toAddress, amountInBaseUnits, { gasPrice: this._defaultGasPrice, }, ); await this._showEtherScanLinkAndAwaitTransactionMinedAsync(txHash); const etherScanLinkIfExists = utils.getEtherScanLinkIfExists(txHash, this.networkId, EtherscanLinkSuffixes.Tx); this._dispatcher.showFlashMessage( React.createElement(TokenSendCompleted, { etherScanLinkIfExists, token, toAddress, amountInBaseUnits, }), ); } public portalOrderToSignedOrder( maker: string, taker: string, makerTokenAddress: string, takerTokenAddress: string, makerTokenAmount: BigNumber, takerTokenAmount: BigNumber, makerFee: BigNumber, takerFee: BigNumber, expirationUnixTimestampSec: BigNumber, feeRecipient: string, ecSignature: ECSignature, salt: BigNumber, ): SignedOrder { const exchangeContractAddress = this.getExchangeContractAddressIfExists(); const takerOrNullAddress = _.isEmpty(taker) ? constants.NULL_ADDRESS : taker; const signedOrder = { ecSignature, exchangeContractAddress, expirationUnixTimestampSec, feeRecipient, maker, makerFee, makerTokenAddress, makerTokenAmount, salt, taker: takerOrNullAddress, takerFee, takerTokenAddress, takerTokenAmount, }; return signedOrder; } public async fillOrderAsync(signedOrder: SignedOrder, fillTakerTokenAmount: BigNumber): Promise { utils.assert(this._doesUserAddressExist(), BlockchainCallErrs.UserHasNoAssociatedAddresses); const shouldThrowOnInsufficientBalanceOrAllowance = true; this._showFlashMessageIfLedger(); const txHash = await this._zeroEx.exchange.fillOrderAsync( signedOrder, fillTakerTokenAmount, shouldThrowOnInsufficientBalanceOrAllowance, this._userAddress, { gasPrice: this._defaultGasPrice, }, ); const receipt = await this._showEtherScanLinkAndAwaitTransactionMinedAsync(txHash); const logs: Array> = receipt.logs as any; this._zeroEx.exchange.throwLogErrorsAsErrors(logs); const logFill = _.find(logs, { event: 'LogFill' }); const args = (logFill.args as any) as LogFillContractEventArgs; const filledTakerTokenAmount = args.filledTakerTokenAmount; return filledTakerTokenAmount; } public async cancelOrderAsync(signedOrder: SignedOrder, cancelTakerTokenAmount: BigNumber): Promise { this._showFlashMessageIfLedger(); const txHash = await this._zeroEx.exchange.cancelOrderAsync(signedOrder, cancelTakerTokenAmount, { gasPrice: this._defaultGasPrice, }); const receipt = await this._showEtherScanLinkAndAwaitTransactionMinedAsync(txHash); const logs: Array> = receipt.logs as any; this._zeroEx.exchange.throwLogErrorsAsErrors(logs); const logCancel = _.find(logs, { event: ExchangeEvents.LogCancel }); const args = (logCancel.args as any) as LogCancelContractEventArgs; const cancelledTakerTokenAmount = args.cancelledTakerTokenAmount; return cancelledTakerTokenAmount; } public async getUnavailableTakerAmountAsync(orderHash: string): Promise { utils.assert(ZeroEx.isValidOrderHash(orderHash), 'Must be valid orderHash'); utils.assert(!_.isUndefined(this._zeroEx), 'ZeroEx must be instantiated.'); const unavailableTakerAmount = await this._zeroEx.exchange.getUnavailableTakerAmountAsync(orderHash); return unavailableTakerAmount; } public getExchangeContractAddressIfExists() { return this._exchangeAddress; } public async validateFillOrderThrowIfInvalidAsync( signedOrder: SignedOrder, fillTakerTokenAmount: BigNumber, takerAddress: string, ): Promise { await this._zeroEx.exchange.validateFillOrderThrowIfInvalidAsync( signedOrder, fillTakerTokenAmount, takerAddress, ); } public async validateCancelOrderThrowIfInvalidAsync( order: Order, cancelTakerTokenAmount: BigNumber, ): Promise { await this._zeroEx.exchange.validateCancelOrderThrowIfInvalidAsync(order, cancelTakerTokenAmount); } public isValidAddress(address: string): boolean { const lowercaseAddress = address.toLowerCase(); return this._web3Wrapper.isAddress(lowercaseAddress); } public async pollTokenBalanceAsync(token: Token) { utils.assert(this._doesUserAddressExist(), BlockchainCallErrs.UserHasNoAssociatedAddresses); const [currBalance] = await this.getTokenBalanceAndAllowanceAsync(this._userAddress, token.address); const newTokenBalancePromise = new Promise((resolve: (balance: BigNumber) => void, reject) => { const tokenPollInterval = intervalUtils.setAsyncExcludingInterval( async () => { const [balance] = await this.getTokenBalanceAndAllowanceAsync(this._userAddress, token.address); if (!balance.eq(currBalance)) { intervalUtils.clearAsyncExcludingInterval(tokenPollInterval); resolve(balance); } }, 5000, (err: Error) => { utils.consoleLog(`Polling tokenBalance failed: ${err}`); intervalUtils.clearAsyncExcludingInterval(tokenPollInterval); reject(err); }, ); }); return newTokenBalancePromise; } public async signOrderHashAsync(orderHash: string): Promise { utils.assert(!_.isUndefined(this._zeroEx), 'ZeroEx must be instantiated.'); const makerAddress = this._userAddress; // If makerAddress is undefined, this means they have a web3 instance injected into their browser // but no account addresses associated with it. if (_.isUndefined(makerAddress)) { throw new Error('Tried to send a sign request but user has no associated addresses'); } this._showFlashMessageIfLedger(); const nodeVersion = await this._web3Wrapper.getNodeVersionAsync(); const isParityNode = utils.isParityNode(nodeVersion); const isTestRpc = utils.isTestRpc(nodeVersion); const isLedgerSigner = !_.isUndefined(this._ledgerSubprovider); let shouldAddPersonalMessagePrefix = true; if ((isParityNode && !isLedgerSigner) || isTestRpc || isLedgerSigner) { shouldAddPersonalMessagePrefix = false; } const ecSignature = await this._zeroEx.signOrderHashAsync( orderHash, makerAddress, shouldAddPersonalMessagePrefix, ); this._dispatcher.updateECSignature(ecSignature); return ecSignature; } public async mintTestTokensAsync(token: Token) { utils.assert(this._doesUserAddressExist(), BlockchainCallErrs.UserHasNoAssociatedAddresses); const mintableContract = await this._instantiateContractIfExistsAsync(MintableArtifacts, token.address); this._showFlashMessageIfLedger(); await mintableContract.mint(constants.MINT_AMOUNT, { from: this._userAddress, gasPrice: this._defaultGasPrice, }); } public async getBalanceInEthAsync(owner: string): Promise { const balance = await this._web3Wrapper.getBalanceInEthAsync(owner); return balance; } public async convertEthToWrappedEthTokensAsync(etherTokenAddress: string, amount: BigNumber): Promise { utils.assert(!_.isUndefined(this._zeroEx), 'ZeroEx must be instantiated.'); utils.assert(this._doesUserAddressExist(), BlockchainCallErrs.UserHasNoAssociatedAddresses); this._showFlashMessageIfLedger(); const txHash = await this._zeroEx.etherToken.depositAsync(etherTokenAddress, amount, this._userAddress, { gasPrice: this._defaultGasPrice, }); await this._showEtherScanLinkAndAwaitTransactionMinedAsync(txHash); } public async convertWrappedEthTokensToEthAsync(etherTokenAddress: string, amount: BigNumber): Promise { utils.assert(!_.isUndefined(this._zeroEx), 'ZeroEx must be instantiated.'); utils.assert(this._doesUserAddressExist(), BlockchainCallErrs.UserHasNoAssociatedAddresses); this._showFlashMessageIfLedger(); const txHash = await this._zeroEx.etherToken.withdrawAsync(etherTokenAddress, amount, this._userAddress, { gasPrice: this._defaultGasPrice, }); await this._showEtherScanLinkAndAwaitTransactionMinedAsync(txHash); } public async doesContractExistAtAddressAsync(address: string) { const doesContractExist = await this._web3Wrapper.doesContractExistAtAddressAsync(address); return doesContractExist; } public async getCurrentUserTokenBalanceAndAllowanceAsync(tokenAddress: string): Promise { const tokenBalanceAndAllowance = await this.getTokenBalanceAndAllowanceAsync(this._userAddress, tokenAddress); return tokenBalanceAndAllowance; } public async getTokenBalanceAndAllowanceAsync(ownerAddress: string, tokenAddress: string): Promise { utils.assert(!_.isUndefined(this._zeroEx), 'ZeroEx must be instantiated.'); if (_.isEmpty(ownerAddress)) { const zero = new BigNumber(0); return [zero, zero]; } let balance = new BigNumber(0); let allowance = new BigNumber(0); if (this._doesUserAddressExist()) { balance = await this._zeroEx.token.getBalanceAsync(tokenAddress, ownerAddress); allowance = await this._zeroEx.token.getProxyAllowanceAsync(tokenAddress, ownerAddress); } return [balance, allowance]; } public async getUserAccountsAsync() { utils.assert(!_.isUndefined(this._zeroEx), 'ZeroEx must be instantiated.'); const userAccountsIfExists = await this._zeroEx.getAvailableAddressesAsync(); return userAccountsIfExists; } // HACK: When a user is using a Ledger, we simply dispatch the selected userAddress, which // by-passes the web3Wrapper logic for updating the prevUserAddress. We therefore need to // manually update it. This should only be called by the LedgerConfigDialog. public updateWeb3WrapperPrevUserAddress(newUserAddress: string) { this._web3Wrapper.updatePrevUserAddress(newUserAddress); } public destroy() { this._web3Wrapper.destroy(); this._stopWatchingExchangeLogFillEvents(); } public async fetchTokenInformationAsync() { utils.assert( !_.isUndefined(this.networkId), 'Cannot call fetchTokenInformationAsync if disconnected from Ethereum node', ); this._dispatcher.updateBlockchainIsLoaded(false); const tokenRegistryTokensByAddress = await this._getTokenRegistryTokensByAddressAsync(); const trackedTokensByAddress = trackedTokenStorage.getTrackedTokensByAddress(this._userAddress, this.networkId); const tokenRegistryTokens = _.values(tokenRegistryTokensByAddress); if (_.isEmpty(trackedTokensByAddress)) { _.each(configs.DEFAULT_TRACKED_TOKEN_SYMBOLS, symbol => { const token = _.find(tokenRegistryTokens, t => t.symbol === symbol); token.isTracked = true; trackedTokensByAddress[token.address] = token; }); _.each(trackedTokensByAddress, (token: Token, address: string) => { trackedTokenStorage.addTrackedTokenToUser(this._userAddress, this.networkId, token); }); } else { // Properly set all tokenRegistry tokens `isTracked` to true if they are in the existing trackedTokens array _.each(trackedTokensByAddress, (trackedToken: Token, address: string) => { if (!_.isUndefined(tokenRegistryTokensByAddress[address])) { tokenRegistryTokensByAddress[address].isTracked = true; } }); } const allTokensByAddress = { ...tokenRegistryTokensByAddress, ...trackedTokensByAddress, }; const allTokens = _.values(allTokensByAddress); const mostPopularTradingPairTokens: Token[] = [ _.find(allTokens, { symbol: configs.DEFAULT_TRACKED_TOKEN_SYMBOLS[0] }), _.find(allTokens, { symbol: configs.DEFAULT_TRACKED_TOKEN_SYMBOLS[1] }), ]; const sideToAssetToken: SideToAssetToken = { [Side.Deposit]: { address: mostPopularTradingPairTokens[0].address, }, [Side.Receive]: { address: mostPopularTradingPairTokens[1].address, }, }; this._dispatcher.batchDispatch(allTokensByAddress, this.networkId, this._userAddress, sideToAssetToken); this._dispatcher.updateBlockchainIsLoaded(true); } private async _showEtherScanLinkAndAwaitTransactionMinedAsync( txHash: string, ): Promise { const etherScanLinkIfExists = utils.getEtherScanLinkIfExists(txHash, this.networkId, EtherscanLinkSuffixes.Tx); this._dispatcher.showFlashMessage( React.createElement(TransactionSubmitted, { etherScanLinkIfExists, }), ); const receipt = await this._zeroEx.awaitTransactionMinedAsync(txHash); return receipt; } private _doesUserAddressExist(): boolean { return this._userAddress !== ''; } private async _rehydrateStoreWithContractEvents() { // Ensure we are only ever listening to one set of events this._stopWatchingExchangeLogFillEvents(); if (!this._doesUserAddressExist()) { return; // short-circuit } if (!_.isUndefined(this._zeroEx)) { // Since we do not have an index on the `taker` address and want to show // transactions where an account is either the `maker` or `taker`, we loop // through all fill events, and filter/cache them client-side. const filterIndexObj = {}; await this._startListeningForExchangeLogFillEventsAsync(filterIndexObj); } } private async _startListeningForExchangeLogFillEventsAsync(indexFilterValues: IndexedFilterValues): Promise { utils.assert(!_.isUndefined(this._zeroEx), 'ZeroEx must be instantiated.'); utils.assert(this._doesUserAddressExist(), BlockchainCallErrs.UserHasNoAssociatedAddresses); // Fetch historical logs await this._fetchHistoricalExchangeLogFillEventsAsync(indexFilterValues); // Start a subscription for new logs this._zeroEx.exchange.subscribe( ExchangeEvents.LogFill, indexFilterValues, async (err: Error, decodedLogEvent: DecodedLogEvent) => { if (err) { // Note: it's not entirely clear from the documentation which // errors will be thrown by `watch`. For now, let's log the error // to rollbar and stop watching when one occurs // tslint:disable-next-line:no-floating-promises errorReporter.reportAsync(err); // fire and forget return; } else { const decodedLog = decodedLogEvent.log; if (!this._doesLogEventInvolveUser(decodedLog)) { return; // We aren't interested in the fill event } this._updateLatestFillsBlockIfNeeded(decodedLog.blockNumber); const fill = await this._convertDecodedLogToFillAsync(decodedLog); if (decodedLogEvent.isRemoved) { tradeHistoryStorage.removeFillFromUser(this._userAddress, this.networkId, fill); } else { tradeHistoryStorage.addFillToUser(this._userAddress, this.networkId, fill); } } }, ); } private async _fetchHistoricalExchangeLogFillEventsAsync(indexFilterValues: IndexedFilterValues) { const fromBlock = tradeHistoryStorage.getFillsLatestBlock(this._userAddress, this.networkId); const blockRange: BlockRange = { fromBlock, toBlock: 'latest' as BlockParam, }; const decodedLogs = await this._zeroEx.exchange.getLogsAsync( ExchangeEvents.LogFill, blockRange, indexFilterValues, ); for (const decodedLog of decodedLogs) { if (!this._doesLogEventInvolveUser(decodedLog)) { continue; // We aren't interested in the fill event } this._updateLatestFillsBlockIfNeeded(decodedLog.blockNumber); const fill = await this._convertDecodedLogToFillAsync(decodedLog); tradeHistoryStorage.addFillToUser(this._userAddress, this.networkId, fill); } } private async _convertDecodedLogToFillAsync(decodedLog: LogWithDecodedArgs) { const args = decodedLog.args; const blockTimestamp = await this._web3Wrapper.getBlockTimestampAsync(decodedLog.blockHash); const fill = { filledTakerTokenAmount: args.filledTakerTokenAmount, filledMakerTokenAmount: args.filledMakerTokenAmount, logIndex: decodedLog.logIndex, maker: args.maker, orderHash: args.orderHash, taker: args.taker, makerToken: args.makerToken, takerToken: args.takerToken, paidMakerFee: args.paidMakerFee, paidTakerFee: args.paidTakerFee, transactionHash: decodedLog.transactionHash, blockTimestamp, }; return fill; } private _doesLogEventInvolveUser(decodedLog: LogWithDecodedArgs) { const args = decodedLog.args; const isUserMakerOrTaker = args.maker === this._userAddress || args.taker === this._userAddress; return isUserMakerOrTaker; } private _updateLatestFillsBlockIfNeeded(blockNumber: number) { const isBlockPending = _.isNull(blockNumber); if (!isBlockPending) { // Hack: I've observed the behavior where a client won't register certain fill events // and lowering the cache blockNumber fixes the issue. As a quick fix for now, simply // set the cached blockNumber 50 below the one returned. This way, upon refreshing, a user // would still attempt to re-fetch events from the previous 50 blocks, but won't need to // re-fetch all events in all blocks. // TODO: Debug if this is a race condition, and apply a more precise fix const blockNumberToSet = blockNumber - BLOCK_NUMBER_BACK_TRACK < 0 ? 0 : blockNumber - BLOCK_NUMBER_BACK_TRACK; tradeHistoryStorage.setFillsLatestBlock(this._userAddress, this.networkId, blockNumberToSet); } } private _stopWatchingExchangeLogFillEvents(): void { this._zeroEx.exchange._unsubscribeAll(); } private async _getTokenRegistryTokensByAddressAsync(): Promise { utils.assert(!_.isUndefined(this._zeroEx), 'ZeroEx must be instantiated.'); const tokenRegistryTokens = await this._zeroEx.tokenRegistry.getTokensAsync(); const tokenByAddress: TokenByAddress = {}; _.each(tokenRegistryTokens, (t: ZeroExToken, i: number) => { // HACK: For now we have a hard-coded list of iconUrls for the dummyTokens // TODO: Refactor this out and pull the iconUrl directly from the TokenRegistry const iconUrl = configs.ICON_URL_BY_SYMBOL[t.symbol]; // HACK: Temporarily we hijack the WETH addresses fetched from the tokenRegistry // so that we can take our time with actually updating it. This ensures that when // we deploy the new WETH page, everyone will re-fill their trackedTokens with the // new canonical WETH. // TODO: Remove this hack once we've updated the TokenRegistries // Airtable task: https://airtable.com/tblFe0Q9JuKJPYbTn/viwsOG2Y97qdIeCIO/recv3VGmIorFzHBVz let address = t.address; if (configs.SHOULD_DEPRECATE_OLD_WETH_TOKEN && t.symbol === 'WETH') { const newEtherTokenAddressIfExists = configs.NEW_WRAPPED_ETHERS[this.networkId]; if (!_.isUndefined(newEtherTokenAddressIfExists)) { address = newEtherTokenAddressIfExists; } } const token: Token = { iconUrl, address, name: t.name, symbol: t.symbol, decimals: t.decimals, isTracked: false, isRegistered: true, }; tokenByAddress[token.address] = token; }); return tokenByAddress; } private async _onPageLoadInitFireAndForgetAsync() { await Blockchain._onPageLoadAsync(); // wait for page to load // Hack: We need to know the networkId the injectedWeb3 is connected to (if it is defined) in // order to properly instantiate the web3Wrapper. Since we must use the async call, we cannot // retrieve it from within the web3Wrapper constructor. This is and should remain the only // call to a web3 instance outside of web3Wrapper in the entire dapp. // In addition, if the user has an injectedWeb3 instance that is disconnected from a backing // Ethereum node, this call will throw. We need to handle this case gracefully const injectedWeb3 = (window as any).web3; let networkIdIfExists: number; if (!_.isUndefined(injectedWeb3)) { try { networkIdIfExists = _.parseInt(await promisify(injectedWeb3.version.getNetwork)()); } catch (err) { // Ignore error and proceed with networkId undefined } } const provider = await Blockchain._getProviderAsync(injectedWeb3, networkIdIfExists); this.networkId = !_.isUndefined(networkIdIfExists) ? networkIdIfExists : configs.IS_MAINNET_ENABLED ? constants.NETWORK_ID_MAINNET : constants.NETWORK_ID_KOVAN; this._dispatcher.updateNetworkId(this.networkId); const zeroExConfigs = { networkId: this.networkId, }; this._zeroEx = new ZeroEx(provider, zeroExConfigs); this._updateProviderName(injectedWeb3); const shouldPollUserAddress = true; this._web3Wrapper = new Web3Wrapper(this._dispatcher, provider, this.networkId, shouldPollUserAddress); await this._postInstantiationOrUpdatingProviderZeroExAsync(); this._userAddress = await this._web3Wrapper.getFirstAccountIfExistsAsync(); this._dispatcher.updateUserAddress(this._userAddress); await this.fetchTokenInformationAsync(); this._web3Wrapper.startEmittingNetworkConnectionAndUserBalanceState(); await this._rehydrateStoreWithContractEvents(); } // This method should always be run after instantiating or updating the provider // of the ZeroEx instance. private async _postInstantiationOrUpdatingProviderZeroExAsync() { utils.assert(!_.isUndefined(this._zeroEx), 'ZeroEx must be instantiated.'); this._exchangeAddress = this._zeroEx.exchange.getContractAddress(); } private _updateProviderName(injectedWeb3: Web3) { const doesInjectedWeb3Exist = !_.isUndefined(injectedWeb3); const providerName = doesInjectedWeb3Exist ? Blockchain._getNameGivenProvider(injectedWeb3.currentProvider) : constants.PROVIDER_NAME_PUBLIC; this._dispatcher.updateInjectedProviderName(providerName); } private async _instantiateContractIfExistsAsync(artifact: any, address?: string): Promise { const c = await contract(artifact); const providerObj = this._web3Wrapper.getProviderObj(); c.setProvider(providerObj); const artifactNetworkConfigs = artifact.networks[this.networkId]; let contractAddress; if (!_.isUndefined(address)) { contractAddress = address; } else if (!_.isUndefined(artifactNetworkConfigs)) { contractAddress = artifactNetworkConfigs.address; } if (!_.isUndefined(contractAddress)) { const doesContractExist = await this.doesContractExistAtAddressAsync(contractAddress); if (!doesContractExist) { utils.consoleLog(`Contract does not exist: ${artifact.contract_name} at ${contractAddress}`); throw new Error(BlockchainCallErrs.ContractDoesNotExist); } } try { const contractInstance = _.isUndefined(address) ? await c.deployed() : await c.at(address); return contractInstance; } catch (err) { const errMsg = `${err}`; utils.consoleLog(`Notice: Error encountered: ${err} ${err.stack}`); if (_.includes(errMsg, 'not been deployed to detected network')) { throw new Error(BlockchainCallErrs.ContractDoesNotExist); } else { await errorReporter.reportAsync(err); throw new Error(BlockchainCallErrs.UnhandledError); } } } private _showFlashMessageIfLedger() { if (!_.isUndefined(this._ledgerSubprovider)) { this._dispatcher.showFlashMessage('Confirm the transaction on your Ledger Nano S'); } } private async _updateDefaultGasPriceAsync() { const endpoint = `${configs.BACKEND_BASE_URL}/eth_gas_station`; const response = await fetch(endpoint); if (response.status !== 200) { return; // noop and we keep hard-coded default } const gasInfo = await response.json(); const gasPriceInGwei = new BigNumber(gasInfo.average / 10); const gasPriceInWei = gasPriceInGwei.mul(1000000000); this._defaultGasPrice = gasPriceInWei; } } // tslint:disable:max-file-line-count