// Copyright (C) 2017 Ecma International. All rights reserved. // This code is governed by the BSD license found in the LICENSE file. /*--- description: | Collection of functions used to safely verify the correctness of property descriptors. ---*/ function verifyProperty(obj, name, desc, options) { assert( arguments.length > 2, 'verifyProperty should receive at least 3 arguments: obj, name, and descriptor' ); var originalDesc = Object.getOwnPropertyDescriptor(obj, name); var nameStr = String(name); // Allows checking for undefined descriptor if it's explicitly given. if (desc === undefined) { assert.sameValue( originalDesc, undefined, "obj['" + nameStr + "'] descriptor should be undefined" ); // desc and originalDesc are both undefined, problem solved; return true; } assert( Object.prototype.hasOwnProperty.call(obj, name), "obj should have an own property " + nameStr ); assert.notSameValue( desc, null, "The desc argument should be an object or undefined, null" ); assert.sameValue( typeof desc, "object", "The desc argument should be an object or undefined, " + String(desc) ); var failures = []; if (Object.prototype.hasOwnProperty.call(desc, 'value')) { if (desc.value !== originalDesc.value) { failures.push("descriptor value should be " + desc.value); } } if (Object.prototype.hasOwnProperty.call(desc, 'enumerable')) { if (desc.enumerable !== originalDesc.enumerable || desc.enumerable !== isEnumerable(obj, name)) { failures.push('descriptor should ' + (desc.enumerable ? '' : 'not ') + 'be enumerable'); } } if (Object.prototype.hasOwnProperty.call(desc, 'writable')) { if (desc.writable !== originalDesc.writable || desc.writable !== isWritable(obj, name)) { failures.push('descriptor should ' + (desc.writable ? '' : 'not ') + 'be writable'); } } if (Object.prototype.hasOwnProperty.call(desc, 'configurable')) { if (desc.configurable !== originalDesc.configurable || desc.configurable !== isConfigurable(obj, name)) { failures.push('descriptor should ' + (desc.configurable ? '' : 'not ') + 'be configurable'); } } assert.sameValue(failures.length, 0, failures.join('; ')); if (options && options.restore) { Object.defineProperty(obj, name, originalDesc); } return true; } function isConfigurable(obj, name) { try { delete obj[name]; } catch (e) { if (!(e instanceof TypeError)) { $ERROR("Expected TypeError, got " + e); } } return !Object.prototype.hasOwnProperty.call(obj, name); } function isEnumerable(obj, name) { var stringCheck = false; if (typeof name === "string") { for (var x in obj) { if (x === name) { stringCheck = true; break; } } } else { // skip it if name is not string, works for Symbol names. stringCheck = true; } return stringCheck && Object.prototype.hasOwnProperty.call(obj, name) && Object.prototype.propertyIsEnumerable.call(obj, name); } function isEqualTo(obj, name, expectedValue) { var actualValue = obj[name]; return assert._isSameValue(actualValue, expectedValue); } function isWritable(obj, name, verifyProp, value) { var newValue = value || "unlikelyValue"; var hadValue = Object.prototype.hasOwnProperty.call(obj, name); var oldValue = obj[name]; var writeSucceeded; try { obj[name] = newValue; } catch (e) { if (!(e instanceof TypeError)) { $ERROR("Expected TypeError, got " + e); } } writeSucceeded = isEqualTo(obj, verifyProp || name, newValue); // Revert the change only if it was successful (in other cases, reverting // is unnecessary and may trigger exceptions for certain property // configurations) if (writeSucceeded) { if (hadValue) { obj[name] = oldValue; } else { delete obj[name]; } } return writeSucceeded; } function verifyEqualTo(obj, name, value) { if (!isEqualTo(obj, name, value)) { $ERROR("Expected obj[" + String(name) + "] to equal " + value + ", actually " + obj[name]); } } function verifyWritable(obj, name, verifyProp, value) { if (!verifyProp) { assert(Object.getOwnPropertyDescriptor(obj, name).writable, "Expected obj[" + String(name) + "] to have writable:true."); } if (!isWritable(obj, name, verifyProp, value)) { $ERROR("Expected obj[" + String(name) + "] to be writable, but was not."); } } function verifyNotWritable(obj, name, verifyProp, value) { if (!verifyProp) { assert(!Object.getOwnPropertyDescriptor(obj, name).writable, "Expected obj[" + String(name) + "] to have writable:false."); } if (isWritable(obj, name, verifyProp)) { $ERROR("Expected obj[" + String(name) + "] NOT to be writable, but was."); } } function verifyEnumerable(obj, name) { assert(Object.getOwnPropertyDescriptor(obj, name).enumerable, "Expected obj[" + String(name) + "] to have enumerable:true."); if (!isEnumerable(obj, name)) { $ERROR("Expected obj[" + String(name) + "] to be enumerable, but was not."); } } function verifyNotEnumerable(obj, name) { assert(!Object.getOwnPropertyDescriptor(obj, name).enumerable, "Expected obj[" + String(name) + "] to have enumerable:false."); if (isEnumerable(obj, name)) { $ERROR("Expected obj[" + String(name) + "] NOT to be enumerable, but was."); } } function verifyConfigurable(obj, name) { assert(Object.getOwnPropertyDescriptor(obj, name).configurable, "Expected obj[" + String(name) + "] to have configurable:true."); if (!isConfigurable(obj, name)) { $ERROR("Expected obj[" + String(name) + "] to be configurable, but was not."); } } function verifyNotConfigurable(obj, name) { assert(!Object.getOwnPropertyDescriptor(obj, name).configurable, "Expected obj[" + String(name) + "] to have configurable:false."); if (isConfigurable(obj, name)) { $ERROR("Expected obj[" + String(name) + "] NOT to be configurable, but was."); } }