const SolidityParser = require('@solidity-parser/parser'); const path = require('path'); const Injector = require('./injector'); const preprocess = require('./preprocessor'); const parse = require('./parse'); /** * Top level controller for the instrumentation sequence. Also hosts the instrumentation data map * which the vm step listener writes its output to. This only needs to be instantiated once * per coverage run. */ class Instrumenter { constructor(config={}){ this.instrumentationData = {}; this.injector = new Injector(config.viaIR); this.modifierWhitelist = config.modifierWhitelist || []; this.enabled = { statements: (config.measureStatementCoverage === false) ? false : true, functions: (config.measureFunctionCoverage === false) ? false: true, modifiers: (config.measureModifierCoverage === false) ? false: true, branches: (config.measureBranchCoverage === false) ? false: true, lines: (config.measureLineCoverage === false) ? false: true }; } _isRootNode(node){ return (node.type === 'ContractDefinition' || node.type === 'LibraryDefinition' || node.type === 'InterfaceDefinition'); } _initializeCoverageFields(contract){ contract.runnableLines = []; contract.fnMap = {}; contract.fnId = 0; contract.branchMap = {}; contract.branchId = 0; contract.statementMap = {}; contract.statementId = 0; contract.injectionPoints = {}; } /** * Per `contractSource`: * - wraps any unbracketed singleton consequents of if, for, while stmts (preprocessor.js) * - walks the file's AST, creating an instrumentation map (parse.js, registrar.js) * - injects `instrumentation` solidity statements into the target solidity source (injector.js) * * @param {String} contractSource solidity source code * @param {String} fileName absolute path to source file * @return {Object} instrumented `contract` object * { * contract: instrumented solidity source code, * contractName: contract name, * runnableLines: integer * } * */ instrument(contractSource, fileName) { const contract = {}; this.injector.resetModifierMapping(); parse.configure(this.enabled, this.modifierWhitelist); contract.source = contractSource; contract.instrumented = contractSource; this._initializeCoverageFields(contract); // First, we run over the original contract to get the source mapping. let ast = SolidityParser.parse(contract.source, {loc: true, range: true}); parse[ast.type](contract, ast); const retValue = JSON.parse(JSON.stringify(contract)); // Possibly apotropaic. // Now, we reset almost everything and use the preprocessor to increase our effectiveness. this._initializeCoverageFields(contract); contract.instrumented = preprocess(contract.source); // Walk the AST, recording injection points ast = SolidityParser.parse(contract.instrumented, {loc: true, range: true}); const root = ast.children.filter(node => this._isRootNode(node)); // Handle contracts which only contain import statements contract.contractName = (root.length) ? root[0].name : null; parse[ast.type](contract, ast); // We have to iterate through these points in descending order const sortedPoints = Object.keys(contract.injectionPoints).sort((a, b) => b - a); sortedPoints.forEach(injectionPoint => { // Line instrumentation has to happen first contract.injectionPoints[injectionPoint].sort((a, b) => { const injections = [ 'injectBranch', 'injectOpenParen', 'injectOrFalse', 'injectAndTrue', 'injectEmptyBranch', 'injectLine' ]; return injections.indexOf(b.type) - injections.indexOf(a.type); }); contract.injectionPoints[injectionPoint].forEach(injection => { this.injector[injection.type]( contract, fileName, injectionPoint, injection, this.instrumentationData ); }); }); retValue.runnableLines = contract.runnableLines; retValue.contract = contract.instrumented; retValue.contractName = contract.contractName; return retValue; } } module.exports = Instrumenter;