embark-area-51/lib/contracts/contracts.js

408 lines
15 KiB
JavaScript

let toposort = require('toposort');
let async = require('async');
const cloneDeep = require('clone-deep');
let utils = require('../utils/utils.js');
// TODO: create a contract object
class ContractsManager {
constructor(options) {
const self = this;
this.contractFiles = options.contractFiles;
this.contractsConfig = cloneDeep(options.contractsConfig || {});
this.contracts = {};
this.logger = options.logger;
this.plugins = options.plugins;
this.contractDependencies = {};
this.gasLimit = options.gasLimit;
this.deployOnlyOnConfig = false;
this.events = options.events;
this.compileError = false;
self.events.setCommandHandler('contracts:list', (cb) => {
cb(self.compileError, self.listContracts());
});
self.events.setCommandHandler("contracts:contract", (contractName, cb) => {
cb(self.getContract(contractName));
});
self.events.setCommandHandler("contracts:build", (configOnly, cb) => {
self.deployOnlyOnConfig = configOnly; // temporary, should refactor
self.build((err) => {
cb(err);
});
});
self.events.on("deploy:contract:error", (_contract) => {
self.events.emit('contractsState', self.contractsState());
});
self.events.on("deploy:contract:deployed", (_contract) => {
self.events.emit('contractsState', self.contractsState());
});
self.events.on("deploy:contract:undeployed", (_contract) => {
self.events.emit('contractsState', self.contractsState());
});
}
build(done) {
let self = this;
self.contracts = {};
async.waterfall([
function loadContractFiles(callback) {
self.events.request("config:contractsFiles", (contractsFiles) => {
self.contractsFiles = contractsFiles;
callback();
});
},
function loadContractConfigs(callback) {
self.events.request("config:contractsConfig", (contractsConfig) => {
self.contractsConfig = cloneDeep(contractsConfig);
callback();
});
},
function compileContracts(callback) {
self.events.emit("status", __("Compiling..."));
if (process.env.isTest && self.compiledContracts && Object.keys(self.compiledContracts).length) {
// Only compile once for tests
return callback();
}
self.events.request("compiler:contracts", self.contractFiles, function (err, compiledObject) {
self.compiledContracts = compiledObject;
callback(err);
});
},
function prepareContractsFromConfig(callback) {
self.events.emit("status", __("Building..."));
let className, contract;
for (className in self.contractsConfig.contracts) {
contract = self.contractsConfig.contracts[className];
contract.className = className;
contract.args = contract.args || [];
self.contracts[className] = contract;
}
callback();
},
function getGasPriceForNetwork(callback) {
return callback(null, self.contractsConfig.gasPrice);
},
function prepareContractsFromCompilation(gasPrice, callback) {
let className, compiledContract, contractConfig, contract;
for (className in self.compiledContracts) {
compiledContract = self.compiledContracts[className];
contractConfig = self.contractsConfig.contracts[className];
contract = self.contracts[className] || {className: className, args: []};
contract.code = compiledContract.code;
contract.runtimeBytecode = compiledContract.runtimeBytecode;
contract.realRuntimeBytecode = (contract.realRuntimeBytecode || contract.runtimeBytecode);
contract.swarmHash = compiledContract.swarmHash;
contract.gasEstimates = compiledContract.gasEstimates;
contract.functionHashes = compiledContract.functionHashes;
contract.abiDefinition = compiledContract.abiDefinition;
contract.filename = compiledContract.filename;
contract.gas = (contractConfig && contractConfig.gas) || self.contractsConfig.gas || 'auto';
contract.gasPrice = contract.gasPrice || gasPrice;
contract.type = 'file';
contract.className = className;
self.contracts[className] = contract;
}
callback();
},
function setDeployIntention(callback) {
let className, contract;
for (className in self.contracts) {
contract = self.contracts[className];
contract.deploy = (contract.deploy === undefined) || contract.deploy;
if (self.deployOnlyOnConfig && !self.contractsConfig.contracts[className]) {
contract.deploy = false;
}
if (contract.code === "") {
self.logger.info(__("assuming %s to be an interface", className));
contract.deploy = false;
}
}
callback();
},
/*eslint complexity: ["error", 11]*/
function dealWithSpecialConfigs(callback) {
let className, contract, parentContractName, parentContract;
let dictionary = Object.keys(self.contracts);
for (className in self.contracts) {
contract = self.contracts[className];
if (contract.instanceOf === undefined) {
continue;
}
parentContractName = contract.instanceOf;
parentContract = self.contracts[parentContractName];
if (parentContract === className) {
self.logger.error(__("%s : instanceOf is set to itself", className));
continue;
}
if (parentContract === undefined) {
self.logger.error(__("{{className}}: couldn't find instanceOf contract {{parentContractName}}", {className: className, parentContractName: parentContractName}));
let suggestion = utils.proposeAlternative(parentContractName, dictionary, [className, parentContractName]);
if (suggestion) {
self.logger.warn(__('did you mean "%s"?', suggestion));
}
continue;
}
if (parentContract.args && parentContract.args.length > 0 && ((contract.args && contract.args.length === 0) || contract.args === undefined)) {
contract.args = parentContract.args;
}
if (contract.code !== undefined) {
self.logger.error(__("{{className}} has code associated to it but it's configured as an instanceOf {{parentContractName}}", {className: className, parentContractName: parentContractName}));
}
contract.code = parentContract.code;
contract.runtimeBytecode = parentContract.runtimeBytecode;
contract.gasEstimates = parentContract.gasEstimates;
contract.functionHashes = parentContract.functionHashes;
contract.abiDefinition = parentContract.abiDefinition;
contract.gas = contract.gas || parentContract.gas;
contract.gasPrice = contract.gasPrice || parentContract.gasPrice;
contract.type = 'instance';
}
callback();
},
function removeContractsWithNoCode(callback) {
let className, contract;
let dictionary = Object.keys(self.contracts);
for (className in self.contracts) {
contract = self.contracts[className];
if (contract.code === undefined) {
self.logger.error(__("%s has no code associated", className));
let suggestion = utils.proposeAlternative(className, dictionary, [className]);
if (suggestion) {
self.logger.warn(__('did you mean "%s"?', suggestion));
}
delete self.contracts[className];
}
}
self.logger.trace(self.contracts);
callback();
},
// TODO: needs refactoring, has gotten too complex
/*eslint complexity: ["error", 16]*/
/*eslint max-depth: ["error", 16]*/
function determineDependencies(callback) {
let className, contract;
for (className in self.contracts) {
contract = self.contracts[className];
// look in code for dependencies
let libMatches = (contract.code.match(/\:(.*?)(?=_)/g) || []);
for (let match of libMatches) {
self.contractDependencies[className] = self.contractDependencies[className] || [];
self.contractDependencies[className].push(match.substr(1));
}
// look in arguments for dependencies
if (contract.args === []) continue;
let ref;
if (Array.isArray(contract.args)) {
ref = contract.args;
} else {
let keys = Object.keys(contract.args);
ref = keys.map((k) => contract.args[k]).filter((x) => !x);
}
for (let j = 0; j < ref.length; j++) {
let arg = ref[j];
if (arg[0] === "$") {
self.contractDependencies[className] = self.contractDependencies[className] || [];
self.contractDependencies[className].push(arg.substr(1));
self.checkDependency(className, arg.substr(1));
}
if (Array.isArray(arg)) {
for (let sub_arg of arg) {
if (sub_arg[0] === "$") {
self.contractDependencies[className] = self.contractDependencies[className] || [];
self.contractDependencies[className].push(sub_arg.substr(1));
self.checkDependency(className, sub_arg.substr(1));
}
}
}
}
// look in onDeploy for dependencies
if (contract.onDeploy === [] || contract.onDeploy === undefined) continue;
let regex = /\$\w+/g;
contract.onDeploy.map((cmd) => {
cmd.replace(regex, (match) => {
self.contractDependencies[className] = self.contractDependencies[className] || [];
self.contractDependencies[className].push(match.substr(1));
});
});
}
callback();
},
function setDependencyCount(callback) {
let className;
function getDependencyCount(contractName, cycleDetector) {
if (!self.contracts[contractName]) {
return 0;
}
if (self.contracts[contractName].dependencyCount || self.contracts[contractName].dependencyCount === 0) {
// Already have that count
return self.contracts[contractName].dependencyCount;
}
if (!self.contractDependencies[contractName] || !self.contractDependencies[contractName].length) {
self.contracts[contractName].dependencyCount = 0;
return 0;
}
let total = self.contractDependencies[contractName].length;
self.contractDependencies[contractName].some(dependencyName => {
if (cycleDetector.indexOf(dependencyName) > -1) {
// We are in a cycle because of the dependency, set both to Infinity
self.contracts[dependencyName].dependencyCount = Infinity;
total = Infinity;
return true;
}
cycleDetector.push(dependencyName);
total += getDependencyCount(dependencyName, cycleDetector);
});
self.contracts[contractName].dependencyCount = total;
return total;
}
let cycleDetector;
for (className in self.contracts) {
cycleDetector = [];
getDependencyCount(className, cycleDetector);
}
callback();
}
], function (err) {
if (err) {
self.compileError = true;
self.events.emit("status", __("Compile/Build error"));
self.logger.error(__("Error Compiling/Building contracts: ") + err);
}else{
self.compileError = false;
}
self.logger.trace("finished".underline);
done(err, self);
});
}
checkDependency(className, dependencyName) {
if (!this.contractDependencies[className]) {
return;
}
if (!this.contracts[dependencyName]) {
this.logger.warn(__('{{className}} has a dependency on {{dependencyName}}', {className, dependencyName}) +
__(', but it is not present in the contracts'));
return;
}
if (!this.contracts[dependencyName].deploy) {
this.logger.warn(__('{{className}} has a dependency on {{dependencyName}}', {className, dependencyName}) +
__(', but it is not set to deploy. It could be an interface.'));
}
}
getContract(className) {
return this.contracts[className];
}
sortContracts(contractList) {
let converted_dependencies = [], i;
for (let contract in this.contractDependencies) {
let dependencies = this.contractDependencies[contract];
for (i = 0; i < dependencies.length; i++) {
converted_dependencies.push([contract, dependencies[i]]);
}
}
let orderedDependencies;
try {
orderedDependencies = toposort(converted_dependencies.filter((x) => x[0] != x[1])).reverse();
} catch(e) {
this.logger.error((__("Error: ") + e.message).red);
this.logger.error(__("there are two or more contracts that depend on each other in a cyclic manner").bold.red);
this.logger.error(__("Embark couldn't determine which one to deploy first").red);
throw new Error("CyclicDependencyError");
//process.exit(0);
}
let newList = contractList.sort(function (a, b) {
let order_a = orderedDependencies.indexOf(a.className);
let order_b = orderedDependencies.indexOf(b.className);
return order_a - order_b;
});
return newList;
}
// TODO: should be built contracts
listContracts() {
let contracts = [];
for (let className in this.contracts) {
let contract = this.contracts[className];
contracts.push(contract);
}
return this.sortContracts(contracts);
}
contractsState() {
let data = [];
for (let className in this.contracts) {
let contract = this.contracts[className];
let contractData;
if (contract.deploy === false) {
contractData = [
className.green,
__('Interface or set to not deploy').green,
"\t\tn/a".green
];
} else if (contract.error) {
contractData = [
className.green,
(contract.error).split("\n")[0].replace(/Error: /g, '').substring(0, 32).red,
'\t\tError'.red
];
} else {
contractData = [
className.green,
(contract.deployedAddress || '...').green,
((contract.deployedAddress !== undefined) ? ("\t\t" + __("Deployed")).green : ("\t\t" + __("Pending")).magenta)
];
}
data.push(contractData);
}
return data;
}
}
module.exports = ContractsManager;