const Web3 = require('web3'); const async = require('async'); const Provider = require('./provider.js'); const utils = require('../../utils/utils'); const constants = require('../../constants'); const embarkJsUtils = require('embarkjs').Utils; const WEB3_READY = 'blockchain:ready'; // TODO: consider another name, this is the blockchain connector class BlockchainConnector { constructor(embark, options) { const self = this; this.plugins = options.plugins; this.logger = embark.logger; this.events = embark.events; this.config = embark.config; this.web3 = options.web3; this.isDev = options.isDev; this.web3Endpoint = ''; this.isWeb3Ready = false; this.wait = options.wait; self.events.setCommandHandler("blockchain:web3:isReady", (cb) => { cb(self.isWeb3Ready); }); self.events.setCommandHandler("blockchain:object", (cb) => { cb(self); }); if (!this.web3) { this.initWeb3(); } else { this.isWeb3Ready = true; } this.registerServiceCheck(); this.registerRequests(); this.registerWeb3Object(); this.registerEvents(); this.subscribeToPendingTransactions(); } initWeb3(cb) { if (!cb) { cb = function(){}; } if (this.isWeb3Ready) { this.events.emit(WEB3_READY); return cb(); } const self = this; this.web3 = new Web3(); if (self.wait) { self.wait = false; return cb(); } let {type, host, port, accounts, protocol, coverage} = this.config.contractsConfig.deployment; if (!BlockchainConnector.ACCEPTED_TYPES.includes(type)) { this.logger.error(__("contracts config error: unknown deployment type %s", type)); this.logger.error(__("Accepted types are: %s", BlockchainConnector.ACCEPTED_TYPES.join(', '))); } if (type === 'vm') { const sim = self._getSimulator(); self.provider = sim.provider(self.config.contractsConfig.deployment); if (coverage) { // Here we patch the sendAsync method on the provider. The goal behind this is to force pure/constant/view calls to become // transactions, so that we can pull in execution traces and account for those executions in code coverage. // // Instead of a simple call, here's what happens: // // 1) A transaction is sent with the same payload, and a pre-defined gas price; // 2) We wait for the transaction to be mined by asking for the receipt; // 3) Once we get the receipt back, we dispatch the real call and pass the original callback; // // This will still allow tests to get the return value from the call and run contracts unmodified. self.provider.realSendAsync = self.provider.sendAsync.bind(self.provider); self.provider.sendAsync = function(payload, cb) { if(payload.method !== 'eth_call') { return self.provider.realSendAsync(payload, cb); } self.events.request('reporter:toggleGasListener'); let newParams = Object.assign({}, payload.params[0], {gasPrice: '0x77359400'}); let newPayload = { id: payload.id + 1, method: 'eth_sendTransaction', params: [newParams], jsonrpc: payload.jsonrpc }; self.provider.realSendAsync(newPayload, (_err, response) => { let txHash = response.result; self.web3.eth.getTransactionReceipt(txHash, (_err, _res) => { self.events.request('reporter:toggleGasListener'); self.provider.realSendAsync(payload, cb); }); }); }; } self.web3.setProvider(self.provider); self._emitWeb3Ready(); return cb(); } protocol = (type === "rpc") ? protocol : 'ws'; this.web3Endpoint = utils.buildUrl(protocol, host, port); const providerOptions = { web3: this.web3, accountsConfig: accounts, blockchainConfig: this.config.blockchainConfig, logger: this.logger, isDev: this.isDev, type: type, web3Endpoint: self.web3Endpoint }; this.provider = new Provider(providerOptions); self.events.request("processes:launch", "blockchain", () => { self.provider.startWeb3Provider(() => { this.getNetworkId() .then(id => { let networkId = self.config.blockchainConfig.networkId; if (!networkId && constants.blockchain.networkIds[self.config.blockchainConfig.networkType]) { networkId = constants.blockchain.networkIds[self.config.blockchainConfig.networkType]; } if (networkId && id.toString() !== networkId.toString()) { self.logger.warn(__('Connected to a blockchain node on network {{realId}} while your config specifies {{configId}}', {realId: id, configId: networkId})); self.logger.warn(__('Make sure you started the right blockchain node')); } }) .catch(console.error); self.provider.fundAccounts(() => { self._emitWeb3Ready(); cb(); }); }); }); } _emitWeb3Ready() { this.isWeb3Ready = true; this.events.emit(WEB3_READY); this.registerWeb3Object(); this.subscribeToPendingTransactions(); } _getSimulator() { try { return require('ganache-cli'); } catch (e) { const moreInfo = 'For more information see https://github.com/trufflesuite/ganache-cli'; if (e.code === 'MODULE_NOT_FOUND') { this.logger.error(__('Simulator not found; Please install it with "%s"', 'npm install ganache-cli --save')); this.logger.error(moreInfo); throw e; } this.logger.error("=============="); this.logger.error(__("Tried to load Ganache CLI (testrpc), but an error occurred. This is a problem with Ganache CLI")); this.logger.error(moreInfo); this.logger.error("=============="); throw e; } } registerEvents() { const self = this; self.events.on('check:wentOffline:Ethereum', () => { self.logger.warn('Ethereum went offline: stopping web3 provider...'); self.provider.stop(); // once the node goes back online, we can restart the provider self.events.once('check:backOnline:Ethereum', () => { self.logger.warn('Ethereum back online: starting web3 provider...'); self.provider.startWeb3Provider(() => { self.logger.warn('web3 provider restarted after ethereum node came back online'); }); }); }); } onReady(callback) { if (this.isWeb3Ready) { return callback(); } this.events.once(WEB3_READY, () => { callback(); }); } registerServiceCheck() { const self = this; const NO_NODE = 'noNode'; this.events.request("services:register", 'Ethereum', function (cb) { async.waterfall([ function checkNodeConnection(next) { if (!self.provider || !self.provider.connected()) { return next(NO_NODE, {name: "No Blockchain node found", status: 'off'}); } next(); }, function checkVersion(next) { // TODO: web3_clientVersion method is currently not implemented in web3.js 1.0 self.web3._requestManager.send({method: 'web3_clientVersion', params: []}, (err, version) => { if (err) { self.isWeb3Ready = false; return next(null, {name: "Ethereum node not found", status: 'off'}); } if (version.indexOf("/") < 0) { self.events.emit(WEB3_READY); self.isWeb3Ready = true; return next(null, {name: version, status: 'on'}); } let nodeName = version.split("/")[0]; let versionNumber = version.split("/")[1].split("-")[0]; let name = nodeName + " " + versionNumber + " (Ethereum)"; self.events.emit(WEB3_READY); self.isWeb3Ready = true; return next(null, {name: name, status: 'on'}); }); } ], (err, statusObj) => { if (err && err !== NO_NODE) { return cb(err); } cb(statusObj); }); }, 5000, 'off'); } registerRequests() { const self = this; this.events.setCommandHandler("blockchain:reset", function(cb) { self.isWeb3Ready = false; self.initWeb3(cb); }); this.events.setCommandHandler("blockchain:get", function(cb) { cb(self.web3); }); this.events.setCommandHandler("blockchain:defaultAccount:get", function(cb) { cb(self.defaultAccount()); }); this.events.setCommandHandler("blockchain:defaultAccount:set", function(account, cb) { self.setDefaultAccount(account); cb(); }); this.events.setCommandHandler("blockchain:getAccounts", function(cb) { self.getAccounts(cb); }); this.events.setCommandHandler("blockchain:getBalance", function(address, cb) { self.getBalance(address, cb); }); this.events.setCommandHandler("blockchain:block:byNumber", function(blockNumber, cb) { self.getBlock(blockNumber, cb); }); this.events.setCommandHandler("blockchain:gasPrice", function(cb) { self.getGasPrice(cb); }); this.events.setCommandHandler("blockchain:networkId", function(cb) { self.getNetworkId().then(cb); }); this.events.setCommandHandler("blockchain:contract:create", function(params, cb) { cb(self.ContractObject(params)); }); } defaultAccount() { return this.web3.eth.defaultAccount; } setDefaultAccount(account) { this.web3.eth.defaultAccount = account; } getAccounts(cb) { this.web3.eth.getAccounts(cb); } getBalance(address, cb) { this.web3.eth.getBalance(address, cb); } getCode(address, cb) { this.web3.eth.getCode(address, cb); } getBlock(blockNumber, cb) { this.web3.eth.getBlock(blockNumber, cb); } getGasPrice(cb) { const self = this; this.onReady(() => { self.web3.eth.getGasPrice(cb); }); } getNetworkId() { return this.web3.eth.net.getId(); } ContractObject(params) { return new this.web3.eth.Contract(params.abi, params.address); } deployContractObject(contractObject, params) { return contractObject.deploy({arguments: params.arguments, data: params.data}); } estimateDeployContractGas(deployObject, cb) { return deployObject.estimateGas().then((gasValue) => { cb(null, gasValue); }).catch(cb); } deployContractFromObject(deployContractObject, params, cb) { embarkJsUtils.secureSend(this.web3, deployContractObject, { from: params.from, gas: params.gas, gasPrice: params.gasPrice }, true, cb); } determineDefaultAccount(cb) { const self = this; self.getAccounts(function(err, accounts) { if (err) { self.logger.error(err); return cb(new Error(err)); } let accountConfig = self.config.blockchainConfig.account; let selectedAccount = accountConfig && accountConfig.address; const defaultAccount = selectedAccount || accounts[0]; self.setDefaultAccount(defaultAccount); cb(null, defaultAccount); }); } registerWeb3Object() { // doesn't feel quite right, should be a cmd or plugin method // can just be a command without a callback this.events.emit("runcode:register", "web3", this.web3, false); } subscribeToPendingTransactions() { const self = this; this.onReady(() => { if (self.logsSubscription) { self.logsSubscription.unsubscribe(); } self.logsSubscription = self.web3.eth .subscribe('newBlockHeaders', () => {}) .on("data", function (blockHeader) { self.events.emit('block:header', blockHeader); }); }); } } BlockchainConnector.ACCEPTED_TYPES = ['rpc', 'ws', 'vm']; module.exports = BlockchainConnector;