let async = require('async'); //require("../utils/debug_util.js")(__filename, async); let utils = require('../../utils/utils.js'); class ContractDeployer { constructor(options) { const self = this; this.logger = options.logger; this.events = options.events; this.plugins = options.plugins; self.events.setCommandHandler('deploy:contract', (contract, cb) => { self.checkAndDeployContract(contract, null, cb); }); } // TODO: determining the arguments could also be in a module since it's not // part of ta 'normal' contract deployment determineArguments(suppliedArgs, contract, accounts, callback) { const self = this; let args = suppliedArgs; if (!Array.isArray(args)) { args = []; let abi = contract.abiDefinition.find((abi) => abi.type === 'constructor'); for (let input of abi.inputs) { let inputValue = suppliedArgs[input.name]; if (!inputValue) { this.logger.error(__("{{inputName}} has not been defined for {{className}} constructor", {inputName: input.name, className: contract.className})); } args.push(inputValue || ""); } } function parseArg(arg, cb) { const match = arg.match(/\$accounts\[([0-9]+)]/); if (match) { if (!accounts[match[1]]) { return cb(__('No corresponding account at index %d', match[1])); } return cb(null, accounts[match[1]]); } let contractName = arg.substr(1); self.events.request('contracts:contract', contractName, (referedContract) => { // Because we're referring to a contract that is not being deployed (ie. an interface), // we still need to provide a valid address so that the ABI checker won't fail. cb(null, (referedContract.deployedAddress || '0x0000000000000000000000000000000000000000')); }); } async.map(args, (arg, nextEachCb) => { if (arg[0] === "$") { parseArg(arg, nextEachCb); } else if (Array.isArray(arg)) { async.map(arg, (sub_arg, nextSubEachCb) => { if (sub_arg[0] === "$") { parseArg(sub_arg, nextSubEachCb); } else if(typeof sub_arg === 'string' && sub_arg.indexOf('.eth') === sub_arg.length - 4) { self.events.request("ens:resolve", sub_arg, (err, name) => { if(err) { return nextSubEachCb(err); } return nextSubEachCb(err, name); }); } else { nextSubEachCb(null, sub_arg); } }, (err, subRealArgs) => { nextEachCb(null, subRealArgs); }); } else if(typeof arg === 'string' && arg.indexOf('.eth') === arg.length - 4) { self.events.request("ens:resolve", arg, (err, name) => { if(err) { return nextEachCb(err); } return nextEachCb(err, name); }); } else { nextEachCb(null, arg); } }, callback); } checkAndDeployContract(contract, params, callback) { let self = this; contract.error = false; let accounts = []; let deploymentAccount; if (contract.deploy === false) { self.events.emit("deploy:contract:undeployed", contract); return callback(); } async.waterfall([ function requestBlockchainConnector(callback) { self.events.request("blockchain:object", (blockchain) => { self.blockchain = blockchain; callback(); }); }, // TODO: can potentially go to a beforeDeploy plugin function getAccounts(next) { deploymentAccount = self.blockchain.defaultAccount(); self.blockchain.getAccounts(function (err, _accounts) { if (err) { return next(new Error(err)); } accounts = _accounts; // applying deployer account configuration, if any if (typeof contract.fromIndex === 'number') { deploymentAccount = accounts[contract.fromIndex]; if (deploymentAccount === undefined) { return next(__("error deploying") + " " + contract.className + ": " + __("no account found at index") + " " + contract.fromIndex + __(" check the config")); } } if (typeof contract.from === 'string' && typeof contract.fromIndex !== 'undefined') { self.logger.warn(__('Both "from" and "fromIndex" are defined for contract') + ' "' + contract.className + '". ' + __('Using "from" as deployer account.')); } if (typeof contract.from === 'string') { deploymentAccount = contract.from; } deploymentAccount = deploymentAccount || accounts[0]; contract.deploymentAccount = deploymentAccount; next(); }); }, function applyArgumentPlugins(next) { self.plugins.emitAndRunActionsForEvent('deploy:contract:arguments', {contract: contract}, (_params) => { next(); }); }, function _determineArguments(next) { self.determineArguments(params || contract.args, contract, accounts, (err, realArgs) => { if (err) { return next(err); } contract.realArgs = realArgs; next(); }); }, function deployIt(next) { if (contract.address !== undefined) { try { utils.toChecksumAddress(contract.address); } catch(e) { self.logger.error(__("error deploying %s", contract.className)); self.logger.error(e.message); contract.error = e.message; self.events.emit("deploy:contract:error", contract); return next(e.message); } contract.deployedAddress = contract.address; self.logFunction(contract)(contract.className.bold.cyan + __(" already deployed at ").green + contract.address.bold.cyan); self.events.emit("deploy:contract:deployed", contract); return next(); } self.plugins.emitAndRunActionsForEvent('deploy:contract:shouldDeploy', {contract: contract, shouldDeploy: true}, function(_err, params) { let trackedContract = params.contract; if (!params.shouldDeploy) { return self.willNotDeployContract(contract, trackedContract, next); } if (!trackedContract.address) { return self.deployContract(contract, next); } // deploy the contract regardless if track field is defined and set to false if (trackedContract.track === false) { self.logFunction(contract)(contract.className.bold.cyan + __(" will be redeployed").green); return self.deployContract(contract, next); } self.blockchain.getCode(trackedContract.address, function(_getCodeErr, codeInChain) { if (codeInChain !== "0x") { self.contractAlreadyDeployed(contract, trackedContract, next); } else { self.deployContract(contract, next); } }); }); } ], callback); } willNotDeployContract(contract, trackedContract, callback) { contract.deploy = false; this.events.emit("deploy:contract:undeployed", contract); callback(); } contractAlreadyDeployed(contract, trackedContract, callback) { const self = this; this.logFunction(contract)(contract.className.bold.cyan + __(" already deployed at ").green + trackedContract.address.bold.cyan); contract.deployedAddress = trackedContract.address; self.events.emit("deploy:contract:deployed", contract); // TODO: can be moved into a afterDeploy event // just need to figure out the gasLimit coupling issue self.events.request('code-generator:contract:vanilla', contract, contract._gasLimit, (contractCode) => { self.events.request('runcode:eval', contractCode, () => {}, true); return callback(); }); } logFunction(contract) { return contract.silent ? this.logger.trace.bind(this.logger) : this.logger.info.bind(this.logger); } deployContract(contract, callback) { let self = this; let deployObject; async.waterfall([ function doLinking(next) { let contractCode = contract.code; self.events.request('contracts:list', (_err, contracts) => { for (let contractObj of contracts) { let filename = contractObj.filename; let deployedAddress = contractObj.deployedAddress; if (deployedAddress) { deployedAddress = deployedAddress.substr(2); } let linkReference = '__' + filename + ":" + contractObj.className; if (contractCode.indexOf(linkReference.substr(0, 38)) < 0) { // substr to simulate the cut that solc does continue; } if (linkReference.length > 40) { return next(new Error(__("{{linkReference}} is too long, try reducing the path of the contract ({{filename}}) and/or its name {{contractName}}", {linkReference: linkReference, filename: filename, contractName: contractObj.className}))); } let toReplace = linkReference + "_".repeat(40 - linkReference.length); if (deployedAddress === undefined) { let libraryName = contractObj.className; return next(new Error(__("{{contractName}} needs {{libraryName}} but an address was not found, did you deploy it or configured an address?", {contractName: contract.className, libraryName: libraryName}))); } contractCode = contractCode.replace(new RegExp(toReplace, "g"), deployedAddress); } // saving code changes back to the contract object contract.code = contractCode; self.events.request('contracts:setBytecode', contract.className, contractCode); next(); }); }, function applyBeforeDeploy(next) { self.plugins.emitAndRunActionsForEvent('deploy:contract:beforeDeploy', {contract: contract}, (_params) => { next(); }); }, function getGasPriceForNetwork(next) { self.events.request("blockchain:gasPrice", (err, gasPrice) => { if (err) { return next(new Error(__("could not get the gas price"))); } contract.gasPrice = contract.gasPrice || gasPrice; next(); }); }, function createDeployObject(next) { let contractCode = contract.code; let contractObject = self.blockchain.ContractObject({abi: contract.abiDefinition}); let contractParams = (contract.realArgs || contract.args).slice(); try { const dataCode = contractCode.startsWith('0x') ? contractCode : "0x" + contractCode; deployObject = self.blockchain.deployContractObject(contractObject, {arguments: contractParams, data: dataCode}); } catch(e) { if (e.message.indexOf('Invalid number of parameters for "undefined"') >= 0) { return next(new Error(__("attempted to deploy %s without specifying parameters", contract.className)) + ". " + __("check if there are any params defined for this contract in this environment in the contracts configuration file")); } return next(new Error(e)); } next(); }, function estimateCorrectGas(next) { if (contract.gas === 'auto') { return self.blockchain.estimateDeployContractGas(deployObject, (err, gasValue) => { if (err) { return next(err); } let increase_per = 1 + (Math.random() / 10.0); contract.gas = Math.floor(gasValue * increase_per); next(); }); } next(); }, function deployTheContract(next) { let estimatedCost = contract.gas * contract.gasPrice; self.logFunction(contract)(__("deploying") + " " + contract.className.bold.cyan + " " + __("with").green + " " + contract.gas + " " + __("gas at the price of").green + " " + contract.gasPrice + " " + __("Wei, estimated cost:").green + " " + estimatedCost + " Wei".green); self.blockchain.deployContractFromObject(deployObject, { from: contract.deploymentAccount, gas: contract.gas, gasPrice: contract.gasPrice }, function(error, receipt) { if (error) { contract.error = error.message; self.events.emit("deploy:contract:error", contract); if (error.message && error.message.indexOf('replacement transaction underpriced') !== -1) { self.logger.warn("replacement transaction underpriced: This warning typically means a transaction exactly like this one is still pending on the blockchain"); } return next(new Error("error deploying =" + contract.className + "= due to error: " + error.message)); } self.logFunction(contract)(contract.className.bold.cyan + " " + __("deployed at").green + " " + receipt.contractAddress.bold.cyan + " " + __("using").green + " " + receipt.gasUsed + " " + __("gas").green); contract.deployedAddress = receipt.contractAddress; contract.transactionHash = receipt.transactionHash; receipt.className = contract.className; self.events.emit("deploy:contract:receipt", receipt); self.events.emit("deploy:contract:deployed", contract); // TODO: can be moved into a afterDeploy event // just need to figure out the gasLimit coupling issue self.events.request('code-generator:contract:vanilla', contract, contract._gasLimit, (contractCode) => { self.events.request('runcode:eval', contractCode, () => {}, true); self.plugins.runActionsForEvent('deploy:contract:deployed', {contract: contract}, () => { return next(null, receipt); }); }); }); } ], callback); } } module.exports = ContractDeployer;