/* Any copyright is dedicated to the Public Domain. http://creativecommons.org/publicdomain/zero/1.0/ */ "use strict"; Services.prefs.setBoolPref("security.allow_eval_with_system_principal", true); registerCleanupFunction(() => { Services.prefs.clearUserPref("security.allow_eval_with_system_principal"); }); // Run test_unsafe_grips twice, one against a system principal debuggee // and another time with a null principal debuggee // The following tests work like this: // - The specified code is evaluated in a system principal. // `Cu`, `systemPrincipal` and `Services` are provided as global variables. // - The resulting object is debugged in a system or null principal debuggee, // depending on in which list the test is placed. // It is tested according to the specified test parameters. // - An ordinary object that inherits from the resulting one is also debugged. // This is just to check that it can be normally debugged even with an unsafe // object in the prototype. The specified test parameters do not apply. // The following tests are defined via properties with the following defaults. const defaults = { // The class of the grip. class: "Restricted", // The stringification of the object string: "", // Whether the object (not its grip) has class "Function". isFunction: false, // Whether the grip has a preview property. hasPreview: true, // Code that assigns the object to be tested into the obj variable. code: "var obj = {}", // The type of the grip of the prototype. protoType: "null", // Whether the object has some own string properties. hasOwnPropertyNames: false, // Whether the object has some own symbol properties. hasOwnPropertySymbols: false, // The descriptor obtained when retrieving property "x" or Symbol("x"). property: undefined, // Code evaluated after the test, whose result is expected to be true. afterTest: "true == true", }; // The following tests use a system principal debuggee. const systemPrincipalTests = [ { // Dead objects throw a TypeError when accessing properties. class: "DeadObject", string: "", code: ` var obj = Cu.Sandbox(null); Cu.nukeSandbox(obj); `, property: descriptor({ value: "TypeError" }), }, { // This proxy checks that no trap runs (using a second proxy as the handler // there is no need to maintain a list of all possible traps). class: "Proxy", string: "", code: ` var trapDidRun = false; var obj = new Proxy({}, new Proxy({}, {get: (_, trap) => { trapDidRun = true; throw new Error("proxy trap '" + trap + "' was called."); }})); `, afterTest: "trapDidRun === false", }, { // Like the previous test, but now the proxy has a Function class. class: "Proxy", string: "", isFunction: true, code: ` var trapDidRun = false; var obj = new Proxy(function(){}, new Proxy({}, {get: (_, trap) => { trapDidRun = true; throw new Error("proxy trap '" + trap + "' was called.(function)"); }})); `, afterTest: "trapDidRun === false", }, { // Invisisible-to-debugger objects can't be unwrapped, so we don't know if // they are proxies. Thus they shouldn't be accessed. class: "InvisibleToDebugger: Array", string: "", hasPreview: false, code: ` var s = Cu.Sandbox(systemPrincipal, {invisibleToDebugger: true}); var obj = s.eval("[1, 2, 3]"); `, }, { // Like the previous test, but now the object has a Function class. class: "InvisibleToDebugger: Function", string: "", isFunction: true, hasPreview: false, code: ` var s = Cu.Sandbox(systemPrincipal, {invisibleToDebugger: true}); var obj = s.eval("(function func(arg){})"); `, }, { // Cu.Sandbox is a WrappedNative that throws when accessing properties. class: "nsXPCComponents_utils_Sandbox", string: "[object nsXPCComponents_utils_Sandbox]", code: `var obj = Cu.Sandbox;`, protoType: "object", }, ]; // The following tests run code in a system principal, but the resulting object // is debugged in a null principal. const nullPrincipalTests = [ { // The null principal gets undefined when attempting to access properties. string: "[object Object]", code: `var obj = {x: -1};`, }, { // For arrays it's an error instead of undefined. string: "[object Object]", code: `var obj = [1, 2, 3];`, property: descriptor({ value: "Error" }), }, { // For functions it's also an error. string: "function func(arg){}", isFunction: true, hasPreview: false, code: `var obj = function func(arg){};`, property: descriptor({ value: "Error" }), }, { // Check that no proxy trap runs. string: "[object Object]", code: ` var trapDidRun = false; var obj = new Proxy([], new Proxy({}, {get: (_, trap) => { trapDidRun = true; throw new Error("proxy trap '" + trap + "' was called."); }})); `, property: descriptor({ value: "Error" }), afterTest: `trapDidRun === false`, }, { // Like the previous test, but now the object is a callable Proxy. string: "function () {\n [native code]\n}", isFunction: true, hasPreview: false, code: ` var trapDidRun = false; var obj = new Proxy(function(){}, new Proxy({}, {get: (_, trap) => { trapDidRun = true; throw new Error("proxy trap '" + trap + "' was called."); }})); `, property: descriptor({ value: "Error" }), afterTest: `trapDidRun === false`, }, { // Cross-origin Window objects do expose some properties and have a preview. string: "[object Object]", code: `var obj = Services.appShell.createWindowlessBrowser().document.defaultView;`, hasOwnPropertyNames: true, hasOwnPropertySymbols: true, property: descriptor({ value: "SecurityError" }), previewUrl: "about:blank", }, { // Cross-origin Location objects do expose some properties and have a preview. string: "[object Object]", code: `var obj = Services.appShell.createWindowlessBrowser().document.defaultView .location;`, hasOwnPropertyNames: true, hasOwnPropertySymbols: true, property: descriptor({ value: "SecurityError" }), }, ]; function descriptor(descr) { return Object.assign( { configurable: false, writable: false, enumerable: false, value: undefined, }, descr ); } async function test_unsafe_grips( { threadFront, debuggee, isWorkerServer }, tests ) { debuggee.eval( function stopMe(arg1, arg2) { debugger; }.toString() ); for (let data of tests) { data = { ...defaults, ...data }; // Run the code and test the results. const sandbox = Cu.Sandbox(systemPrincipal); Object.assign(sandbox, { Services, systemPrincipal, Cu }); sandbox.eval(data.code); debuggee.obj = sandbox.obj; const inherits = `Object.create(obj, { x: {value: 1}, [Symbol.for("x")]: {value: 2} })`; const packet = await executeOnNextTickAndWaitForPause( () => debuggee.eval(`stopMe(obj, ${inherits});`), threadFront ); const [objGrip, inheritsGrip] = packet.frame.arguments; for (const grip of [objGrip, inheritsGrip]) { const isUnsafe = grip === objGrip; // If `isUnsafe` is true, the parameters in `data` will be used to assert // against `objGrip`, the grip of the object `obj` created by the test. // Otherwise, the grip will refer to `inherits`, an ordinary object which // inherits from `obj`. Then all checks are hardcoded because in every test // all methods are expected to work the same on `inheritsGrip`. check_grip(grip, data, isUnsafe, isWorkerServer); const objClient = threadFront.pauseGrip(grip); let response, slice; response = await objClient.getPrototypeAndProperties(); check_properties(response.ownProperties, data, isUnsafe); check_symbols(response.ownSymbols, data, isUnsafe); check_prototype(response.prototype, data, isUnsafe, isWorkerServer); response = await objClient.enumProperties({ ignoreIndexedProperties: true, }); slice = await response.slice(0, response.count); check_properties(slice.ownProperties, data, isUnsafe); response = await objClient.enumProperties({}); slice = await response.slice(0, response.count); check_properties(slice.ownProperties, data, isUnsafe); response = await objClient.getProperty("x"); check_property(response.descriptor, data, isUnsafe); response = await objClient.enumSymbols(); slice = await response.slice(0, response.count); check_symbol_names(slice.ownSymbols, data, isUnsafe); response = await objClient.getProperty(Symbol.for("x")); check_symbol(response.descriptor, data, isUnsafe); response = await objClient.getPrototype(); check_prototype(response.prototype, data, isUnsafe, isWorkerServer); await objClient.release(); } await threadFront.resume(); ok(sandbox.eval(data.afterTest), "Check after test passes"); } } function check_grip(grip, data, isUnsafe, isWorkerServer) { if (isUnsafe) { strictEqual(grip.class, data.class, "The grip has the proper class."); strictEqual("preview" in grip, data.hasPreview, "Check preview presence."); // preview.url isn't populated on worker server. if (data.previewUrl && !isWorkerServer) { console.trace(); strictEqual( grip.preview.url, data.previewUrl, `Check preview.url for "${data.code}".` ); } } else { strictEqual(grip.class, "Object", "The grip has 'Object' class."); ok("preview" in grip, "The grip has a preview."); } } function check_properties(props, data, isUnsafe) { const propNames = Reflect.ownKeys(props); check_property_names(propNames, data, isUnsafe); if (isUnsafe) { deepEqual(props.x, undefined, "The property does not exist."); } else { strictEqual(props.x.value, 1, "The property has the right value."); } } function check_property_names(props, data, isUnsafe) { if (isUnsafe) { strictEqual( !!props.length, data.hasOwnPropertyNames, "Check presence of own string properties." ); } else { strictEqual(props.length, 1, "1 own property was retrieved."); strictEqual(props[0], "x", "The property has the right name."); } } function check_property(descr, data, isUnsafe) { if (isUnsafe) { deepEqual(descr, data.property, "Got the right property descriptor."); } else { strictEqual(descr.value, 1, "The property has the right value."); } } function check_symbols(symbols, data, isUnsafe) { check_symbol_names(symbols, data, isUnsafe); if (!isUnsafe) { check_symbol(symbols[0].descriptor, data, isUnsafe); } } function check_symbol_names(props, data, isUnsafe) { if (isUnsafe) { strictEqual( !!props.length, data.hasOwnPropertySymbols, "Check presence of own symbol properties." ); } else { strictEqual(props.length, 1, "1 own symbol property was retrieved."); strictEqual(props[0].name, "Symbol(x)", "The symbol has the right name."); } } function check_symbol(descr, data, isUnsafe) { if (isUnsafe) { deepEqual( descr, data.property, "Got the right symbol property descriptor." ); } else { strictEqual(descr.value, 2, "The symbol property has the right value."); } } function check_prototype(proto, data, isUnsafe, isWorkerServer) { const protoGrip = proto && proto.getGrip ? proto.getGrip() : proto; if (isUnsafe) { deepEqual(protoGrip.type, data.protoType, "Got the right prototype type."); } else { check_grip(protoGrip, data, true, isWorkerServer); } } // threadFrontTest uses systemPrincipal by default, but let's be explicit here. add_task( threadFrontTest( options => { return test_unsafe_grips(options, systemPrincipalTests, "system"); }, { principal: systemPrincipal } ) ); const nullPrincipal = Services.scriptSecurityManager.createNullPrincipal({}); add_task( threadFrontTest( options => { return test_unsafe_grips(options, nullPrincipalTests, "null"); }, { principal: nullPrincipal } ) );