// Test that it's not possible to create expando properties on XPCWNs. // See . function check_throws(f) { try { f(); } catch (exc) { return; } throw new TypeError("Expected exception, no exception thrown"); } /* * Test that XPCWrappedNative objects do not permit expando properties to be created. * * This function is called twice. The first time, realObj is an nsITimer XPCWN * and accessObj === realObj. * * The second time, accessObj is a scripted proxy with realObj as its target. * So the second time we are testing that scripted proxies don't magically * bypass whatever mechanism enforces the expando policy on XPCWNs. */ function test_tamperproof(realObj, accessObj, {method, constant, attribute}) { // Assignment can't create an expando property. check_throws(function () { accessObj.expando = 14; }); Assert.equal(false, "expando" in realObj); // Strict assignment throws. check_throws(function () { "use strict"; accessObj.expando = 14; }); Assert.equal(false, "expando" in realObj); // Assignment to an inherited method name doesn't work either. check_throws(function () { accessObj.hasOwnProperty = () => "lies"; }); check_throws(function () { "use strict"; accessObj.hasOwnProperty = () => "lies"; }); Assert.ok(!realObj.hasOwnProperty("hasOwnProperty")); // Assignment to a method name doesn't work either. let originalMethod; if (method) { originalMethod = accessObj[method]; accessObj[method] = "nope"; // non-writable data property, no exception in non-strict code check_throws(function () { "use strict"; accessObj[method] = "nope"; }); Assert.ok(realObj[method] === originalMethod); } // A constant is the same thing. let originalConstantValue; if (constant) { originalConstantValue = accessObj[constant]; accessObj[constant] = "nope"; Assert.equal(realObj[constant], originalConstantValue); check_throws(function () { "use strict"; accessObj[constant] = "nope"; }); Assert.equal(realObj[constant], originalConstantValue); } // Assignment to a readonly accessor property with no setter doesn't work either. let originalAttributeDesc; if (attribute) { originalAttributeDesc = Object.getOwnPropertyDescriptor(realObj, attribute); Assert.ok("set" in originalAttributeDesc); Assert.ok(originalAttributeDesc.set === undefined); accessObj[attribute] = "nope"; // accessor property with no setter: no exception in non-strict code check_throws(function () { "use strict"; accessObj[attribute] = "nope"; }); let desc = Object.getOwnPropertyDescriptor(realObj, attribute); Assert.ok("set" in desc); Assert.equal(originalAttributeDesc.get, desc.get); Assert.equal(undefined, desc.set); } // Reflect.set doesn't work either. if (method) { Assert.ok(!Reflect.set({}, method, "bad", accessObj)); Assert.equal(realObj[method], originalMethod); } if (attribute) { Assert.ok(!Reflect.set({}, attribute, "bad", accessObj)); Assert.equal(originalAttributeDesc.get, Object.getOwnPropertyDescriptor(realObj, attribute).get); } // Object.defineProperty can't do anything either. let names = ["expando"]; if (method) names.push(method); if (constant) names.push(constant); if (attribute) names.push(attribute); for (let name of names) { let originalDesc = Object.getOwnPropertyDescriptor(realObj, name); check_throws(function () { Object.defineProperty(accessObj, name, {configurable: true}); }); check_throws(function () { Object.defineProperty(accessObj, name, {writable: true}); }); check_throws(function () { Object.defineProperty(accessObj, name, {get: function () { return "lies"; }}); }); check_throws(function () { Object.defineProperty(accessObj, name, {value: "bad"}); }); let desc = Object.getOwnPropertyDescriptor(realObj, name); if (originalDesc === undefined) { Assert.equal(undefined, desc); } else { Assert.equal(originalDesc.configurable, desc.configurable); Assert.equal(originalDesc.enumerable, desc.enumerable); Assert.equal(originalDesc.writable, desc.writable); Assert.equal(originalDesc.value, desc.value); Assert.equal(originalDesc.get, desc.get); Assert.equal(originalDesc.set, desc.set); } } // Existing properties can't be deleted. if (method) { Assert.equal(false, delete accessObj[method]); check_throws(function () { "use strict"; delete accessObj[method]; }); Assert.equal(realObj[method], originalMethod); } if (constant) { Assert.equal(false, delete accessObj[constant]); check_throws(function () { "use strict"; delete accessObj[constant]; }); Assert.equal(realObj[constant], originalConstantValue); } if (attribute) { Assert.equal(false, delete accessObj[attribute]); check_throws(function () { "use strict"; delete accessObj[attribute]; }); desc = Object.getOwnPropertyDescriptor(realObj, attribute); Assert.equal(originalAttributeDesc.get, desc.get); } } function test_twice(obj, options) { test_tamperproof(obj, obj, options); let handler = { getPrototypeOf(t) { return new Proxy(Object.getPrototypeOf(t), handler); } }; test_tamperproof(obj, new Proxy(obj, handler), options); } function run_test() { let timer = Cc["@mozilla.org/timer;1"].createInstance(Ci.nsITimer); test_twice(timer, { method: "init", constant: "TYPE_ONE_SHOT", attribute: "callback" }); let cmdline = Cu.createCommandLine(); test_twice(cmdline, {}); test_twice(Object.getPrototypeOf(cmdline), { method: "getArgument", constant: "STATE_INITIAL_LAUNCH", attribute: "length" }); // Test a tearoff object. Components.manager.autoRegister(do_get_file('../components/js/xpctest.manifest')); let b = Cc["@mozilla.org/js/xpc/test/js/TestInterfaceAll;1"].createInstance(Ci.nsIXPCTestInterfaceB); let tearoff = b.nsIXPCTestInterfaceA; test_twice(tearoff, { method: "QueryInterface" }); }