/* -*- indent-tabs-mode: nil; js-indent-level: 2 -*- */ /* vim:set ts=2 sw=2 sts=2 et: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ // The test js is shared between sandboxed (which has no SpecialPowers object) // and content mochitests (where the |Components| object is accessible only as // SpecialPowers.Components). Expose Components if necessary here to make things // work everywhere. // // Even if the real |Components| doesn't exist, we might shim in a simple JS // placebo for compat. An easy way to differentiate this from the real thing // is whether the property is read-only or not. { let c = Object.getOwnPropertyDescriptor(this, 'Components'); if ((!c.value || c.writable) && typeof SpecialPowers === 'object') Components = SpecialPowers.wrap(SpecialPowers.Components); } /* * This file contains common code that is loaded before each test file(s). * See http://developer.mozilla.org/en/docs/Writing_xpcshell-based_unit_tests * for more information. */ var _quit = false; var _tests_pending = 0; var _pendingTimers = []; var _cleanupFunctions = []; function _dump(str) { let start = /^TEST-/.test(str) ? "\n" : ""; dump(start + str); } // Disable automatic network detection, so tests work correctly when // not connected to a network. { let ios = Components.classes["@mozilla.org/network/io-service;1"] .getService(Components.interfaces.nsIIOService2); ios.manageOfflineStatus = false; ios.offline = false; } // Determine if we're running on parent or child var runningInParent = true; try { runningInParent = Components.classes["@mozilla.org/xre/runtime;1"]. getService(Components.interfaces.nsIXULRuntime).processType == Components.interfaces.nsIXULRuntime.PROCESS_TYPE_DEFAULT; } catch (e) { } try { if (runningInParent) { let prefs = Components.classes["@mozilla.org/preferences-service;1"] .getService(Components.interfaces.nsIPrefBranch); // disable necko IPC security checks for xpcshell, as they lack the // docshells needed to pass them prefs.setBoolPref("network.disable.ipc.security", true); // Disable IPv6 lookups for 'localhost' on windows. if ("@mozilla.org/windows-registry-key;1" in Components.classes) { prefs.setCharPref("network.dns.ipv4OnlyDomains", "localhost"); } } } catch (e) { } // Enable crash reporting, if possible // Note that if we're in a child process, we don't want to init the // crashreporter component. try { // nsIXULRuntime is not available in some configurations. if (runningInParent && "@mozilla.org/toolkit/crash-reporter;1" in Components.classes) { // Remember to update // too if you change this initial setting. let crashReporter = Components.classes["@mozilla.org/toolkit/crash-reporter;1"] .getService(Components.interfaces.nsICrashReporter); crashReporter.enabled = true; crashReporter.minidumpPath = do_get_cwd(); } } catch (e) { } /** * Date.now() is not necessarily monotonically increasing (insert sob story * about times not being the right tool to use for measuring intervals of time, * robarnold can tell all), so be wary of error by erring by at least * _timerFuzz ms. */ const _timerFuzz = 15; function _Timer(func, delay) { delay = Number(delay); if (delay < 0) do_throw("do_timeout() delay must be nonnegative"); if (typeof func !== "function") do_throw("string callbacks no longer accepted; use a function!"); this._func = func; this._start = Date.now(); this._delay = delay; var timer = Components.classes["@mozilla.org/timer;1"] .createInstance(Components.interfaces.nsITimer); timer.initWithCallback(this, delay + _timerFuzz, timer.TYPE_ONE_SHOT); // Keep timer alive until it fires _pendingTimers.push(timer); } _Timer.prototype = { QueryInterface: function(iid) { if (iid.equals(Components.interfaces.nsITimerCallback) || iid.equals(Components.interfaces.nsISupports)) return this; throw Components.results.NS_ERROR_NO_INTERFACE; }, notify: function(timer) { _pendingTimers.splice(_pendingTimers.indexOf(timer), 1); // The current nsITimer implementation can undershoot, but even if it // couldn't, paranoia is probably a virtue here given the potential for // random orange on tinderboxen. var end = Date.now(); var elapsed = end - this._start; if (elapsed >= this._delay) { try { this._func.call(null); } catch (e) { do_throw("exception thrown from do_timeout callback: " + e); } return; } // Timer undershot, retry with a little overshoot to try to avoid more // undershoots. var newDelay = this._delay - elapsed; do_timeout(newDelay, this._func); } }; function _do_quit() { _dump("TEST-INFO | (xpcshell/head.js) | exiting test\n"); _quit = true; } function _dump_exception_stack(stack) { stack.split("\n").forEach(function(frame) { if (!frame) return; // frame is of the form "fname(args)@file:line" let frame_regexp = new RegExp("(.*)\\(.*\\)@(.*):(\\d*)", "g"); let parts = frame_regexp.exec(frame); if (parts) dump("JS frame :: " + parts[2] + " :: " + (parts[1] ? parts[1] : "anonymous") + " :: line " + parts[3] + "\n"); else /* Could be a -e (command line string) style location. */ dump("JS frame :: " + frame + "\n"); }); } /************** Functions to be used from the tests **************/ /** * Prints a message to the output log. */ function do_print(msg) { var caller_stack = Components.stack.caller; _dump("TEST-INFO | " + caller_stack.filename + " | " + msg + "\n"); } /** * Calls the given function at least the specified number of milliseconds later. * The callback will not undershoot the given time, but it might overshoot -- * don't expect precision! * * @param delay : uint * the number of milliseconds to delay * @param callback : function() : void * the function to call */ function do_timeout(delay, func) { new _Timer(func, Number(delay)); } function do_execute_soon(callback) { do_test_pending(); var tm = Components.classes["@mozilla.org/thread-manager;1"] .getService(Components.interfaces.nsIThreadManager); tm.mainThread.dispatch({ run: function() { try { callback(); } catch (e) { // do_check failures are already logged and set _quit to true and throw // NS_ERROR_ABORT. If both of those are true it is likely this exception // has already been logged so there is no need to log it again. It's // possible that this will mask an NS_ERROR_ABORT that happens after a // do_check failure though. if (!_quit || e != Components.results.NS_ERROR_ABORT) { _dump("TEST-UNEXPECTED-FAIL | (xpcshell/head.js) | " + e); if (e.stack) { dump(" - See following stack:\n"); _dump_exception_stack(e.stack); } else { dump("\n"); } _do_quit(); } } finally { do_test_finished(); } } }, Components.interfaces.nsIThread.DISPATCH_NORMAL); } function do_throw(text, stack) { if (!stack) stack = Components.stack.caller; _dump("TEST-UNEXPECTED-FAIL | " + stack.filename + " | " + text + " - See following stack:\n"); var frame = Components.stack; while (frame != null) { _dump(frame + "\n"); frame = frame.caller; } _do_quit(); throw Components.results.NS_ERROR_ABORT; } function do_throw_todo(text, stack) { if (!stack) stack = Components.stack.caller; _dump("TEST-UNEXPECTED-PASS | " + stack.filename + " | " + text + " - See following stack:\n"); var frame = Components.stack; while (frame != null) { _dump(frame + "\n"); frame = frame.caller; } _do_quit(); throw Components.results.NS_ERROR_ABORT; } function do_report_unexpected_exception(ex, text) { var caller_stack = Components.stack.caller; text = text ? text + " - " : ""; _dump("TEST-UNEXPECTED-FAIL | " + caller_stack.filename + " | " + text + "Unexpected exception " + ex + ", see following stack:\n" + ex.stack + "\n"); _do_quit(); throw Components.results.NS_ERROR_ABORT; } function do_note_exception(ex, text) { var caller_stack = Components.stack.caller; text = text ? text + " - " : ""; _dump("TEST-INFO | " + caller_stack.filename + " | " + text + "Swallowed exception " + ex + ", see following stack:\n" + ex.stack + "\n"); } function _do_check_neq(left, right, stack, todo) { if (!stack) stack = Components.stack.caller; var text = left + " != " + right; if (left == right) { if (!todo) { do_throw(text, stack); } else { _dump("TEST-KNOWN-FAIL | " + stack.filename + " | [" + stack.name + " : " + stack.lineNumber + "] " + text +"\n"); } } else { if (!todo) { _dump("TEST-PASS | " + stack.filename + " | [" + stack.name + " : " + stack.lineNumber + "] " + text + "\n"); } else { do_throw_todo(text, stack); } } } function do_check_neq(left, right, stack) { if (!stack) stack = Components.stack.caller; _do_check_neq(left, right, stack, false); } function todo_check_neq(left, right, stack) { if (!stack) stack = Components.stack.caller; _do_check_neq(left, right, stack, true); } function do_report_result(passed, text, stack, todo) { if (passed) { if (todo) { do_throw_todo(text, stack); } else { _dump("TEST-PASS | " + stack.filename + " | [" + stack.name + " : " + stack.lineNumber + "] " + text + "\n"); } } else { if (todo) { _dump("TEST-KNOWN-FAIL | " + stack.filename + " | [" + stack.name + " : " + stack.lineNumber + "] " + text +"\n"); } else { do_throw(text, stack); } } } /** * Checks for a true condition, with a success message. */ function ok(condition, msg) { do_report_result(condition, msg, Components.stack.caller, false); } /** * Checks for a condition equality, with a success message. */ function is(left, right, msg) { do_report_result(left === right, "[ " + left + " === " + right + " ] " + msg, Components.stack.caller, false); } function _do_check_eq(left, right, stack, todo) { if (!stack) stack = Components.stack.caller; var text = left + " == " + right; do_report_result(left == right, text, stack, todo); } function do_check_eq(left, right, stack) { if (!stack) stack = Components.stack.caller; _do_check_eq(left, right, stack, false); } function todo_check_eq(left, right, stack) { if (!stack) stack = Components.stack.caller; _do_check_eq(left, right, stack, true); } function do_check_true(condition, stack) { if (!stack) stack = Components.stack.caller; do_check_eq(condition, true, stack); } function todo_check_true(condition, stack) { if (!stack) stack = Components.stack.caller; todo_check_eq(condition, true, stack); } function do_check_false(condition, stack) { if (!stack) stack = Components.stack.caller; do_check_eq(condition, false, stack); } function todo_check_false(condition, stack) { if (!stack) stack = Components.stack.caller; todo_check_eq(condition, false, stack); } function do_check_null(condition, stack=Components.stack.caller) { do_check_eq(condition, null, stack); } function todo_check_null(condition, stack=Components.stack.caller) { todo_check_eq(condition, null, stack); } /** * Check that |value| matches |pattern|. * * A |value| matches a pattern |pattern| if any one of the following is true: * * - |value| and |pattern| are both objects; |pattern|'s enumerable * properties' values are valid patterns; and for each enumerable * property |p| of |pattern|, plus 'length' if present at all, |value| * has a property |p| whose value matches |pattern.p|. Note that if |j| * has other properties not present in |p|, |j| may still match |p|. * * - |value| and |pattern| are equal string, numeric, or boolean literals * * - |pattern| is |undefined| (this is a wildcard pattern) * * - typeof |pattern| == "function", and |pattern(value)| is true. * * For example: * * do_check_matches({x:1}, {x:1}) // pass * do_check_matches({x:1}, {}) // fail: all pattern props required * do_check_matches({x:1}, {x:2}) // fail: values must match * do_check_matches({x:1}, {x:1, y:2}) // pass: extra props tolerated * * // Property order is irrelevant. * do_check_matches({x:"foo", y:"bar"}, {y:"bar", x:"foo"}) // pass * * do_check_matches({x:undefined}, {x:1}) // pass: 'undefined' is wildcard * do_check_matches({x:undefined}, {x:2}) * do_check_matches({x:undefined}, {y:2}) // fail: 'x' must still be there * * // Patterns nest. * do_check_matches({a:1, b:{c:2,d:undefined}}, {a:1, b:{c:2,d:3}}) * * // 'length' property counts, even if non-enumerable. * do_check_matches([3,4,5], [3,4,5]) // pass * do_check_matches([3,4,5], [3,5,5]) // fail; value doesn't match * do_check_matches([3,4,5], [3,4,5,6]) // fail; length doesn't match * * // functions in patterns get applied. * do_check_matches({foo:v => v.length == 2}, {foo:"hi"}) // pass * do_check_matches({foo:v => v.length == 2}, {bar:"hi"}) // fail * do_check_matches({foo:v => v.length == 2}, {foo:"hello"}) // fail * * // We don't check constructors, prototypes, or classes. However, if * // pattern has a 'length' property, we require values to match that as * // well, even if 'length' is non-enumerable in the pattern. So arrays * // are useful as patterns. * do_check_matches({0:0, 1:1, length:2}, [0,1]) // pass * do_check_matches({0:1}, [1,2]) // pass * do_check_matches([0], {0:0, length:1}) // pass * * Notes: * * The 'length' hack gives us reasonably intuitive handling of arrays. * * This is not a tight pattern-matcher; it's only good for checking data * from well-behaved sources. For example: * - By default, we don't mind values having extra properties. * - We don't check for proxies or getters. * - We don't check the prototype chain. * However, if you know the values are, say, JSON, which is pretty * well-behaved, and if you want to tolerate additional properties * appearing on the JSON for backward-compatibility, then do_check_matches * is ideal. If you do want to be more careful, you can use function * patterns to implement more stringent checks. */ function do_check_matches(pattern, value, stack=Components.stack.caller, todo=false) { var matcher = pattern_matcher(pattern); var text = "VALUE: " + uneval(value) + "\nPATTERN: " + uneval(pattern) + "\n"; var diagnosis = [] if (matcher(value, diagnosis)) { do_report_result(true, "value matches pattern:\n" + text, stack, todo); } else { text = ("value doesn't match pattern:\n" + text + "DIAGNOSIS: " + format_pattern_match_failure(diagnosis[0]) + "\n"); do_report_result(false, text, stack, todo); } } function todo_check_matches(pattern, value, stack=Components.stack.caller) { do_check_matches(pattern, value, stack, true); } // Return a pattern-matching function of one argument, |value|, that // returns true if |value| matches |pattern|. // // If the pattern doesn't match, and the pattern-matching function was // passed its optional |diagnosis| argument, the pattern-matching function // sets |diagnosis|'s '0' property to a JSON-ish description of the portion // of the pattern that didn't match, which can be formatted legibly by // format_pattern_match_failure. function pattern_matcher(pattern) { function explain(diagnosis, reason) { if (diagnosis) { diagnosis[0] = reason; } return false; } if (typeof pattern == "function") { return pattern; } else if (typeof pattern == "object" && pattern) { var matchers = []; for (let p in pattern) { matchers.push([p, pattern_matcher(pattern[p])]); } // Kludge: include 'length', if not enumerable. (If it is enumerable, // we picked it up in the array comprehension, above. ld = Object.getOwnPropertyDescriptor(pattern, 'length'); if (ld && !ld.enumerable) { matchers.push(['length', pattern_matcher(pattern.length)]) } return function (value, diagnosis) { if (!(value && typeof value == "object")) { return explain(diagnosis, "value not object"); } for (let [p, m] of matchers) { var element_diagnosis = []; if (!(p in value && m(value[p], element_diagnosis))) { return explain(diagnosis, { property:p, diagnosis:element_diagnosis[0] }); } } return true; }; } else if (pattern === undefined) { return function(value) { return true; }; } else { return function (value, diagnosis) { if (value !== pattern) { return explain(diagnosis, "pattern " + uneval(pattern) + " not === to value " + uneval(value)); } return true; }; } } // Format an explanation for a pattern match failure, as stored in the // second argument to a matching function. function format_pattern_match_failure(diagnosis, indent="") { var a; if (!diagnosis) { a = "Matcher did not explain reason for mismatch."; } else if (typeof diagnosis == "string") { a = diagnosis; } else if (diagnosis.property) { a = "Property " + uneval(diagnosis.property) + " of object didn't match:\n"; a += format_pattern_match_failure(diagnosis.diagnosis, indent + " "); } return indent + a; } function do_test_pending() { ++_tests_pending; _dump("TEST-INFO | (xpcshell/head.js) | test " + _tests_pending + " pending\n"); } function do_test_finished() { _dump("TEST-INFO | (xpcshell/head.js) | test " + _tests_pending + " finished\n"); if (--_tests_pending == 0) { _do_execute_cleanup(); _do_quit(); } } function do_get_file(path, allowNonexistent) { try { let lf = Components.classes["@mozilla.org/file/directory_service;1"] .getService(Components.interfaces.nsIProperties) .get("CurWorkD", Components.interfaces.nsILocalFile); let bits = path.split("/"); for (let i = 0; i < bits.length; i++) { if (bits[i]) { if (bits[i] == "..") lf = lf.parent; else lf.append(bits[i]); } } if (!allowNonexistent && !lf.exists()) { // Not using do_throw(): caller will continue. var stack = Components.stack.caller; _dump("TEST-UNEXPECTED-FAIL | " + stack.filename + " | [" + stack.name + " : " + stack.lineNumber + "] " + lf.path + " does not exist\n"); } return lf; } catch (ex) { do_throw(ex.toString(), Components.stack.caller); } return null; } // do_get_cwd() isn't exactly self-explanatory, so provide a helper function do_get_cwd() { return do_get_file(""); } function do_load_manifest(path) { var lf = do_get_file(path); const nsIComponentRegistrar = Components.interfaces.nsIComponentRegistrar; do_check_true(Components.manager instanceof nsIComponentRegistrar); Components.manager.autoRegister(lf); } /** * Registers a function that will run when the test harness is done running all * tests. * * @param aFunction * The function to be called when the test harness has finished running. */ function do_register_cleanup(func) { _dump("TEST-INFO | " + _TEST_FILE + " | " + (_gRunningTest ? _gRunningTest.name + " " : "") + "registering cleanup function."); _cleanupFunctions.push(func); } /** * Execute a function when the test harness is done running all tests. */ function _do_execute_cleanup() { let func; while ((func = _cleanupFunctions.pop())) { _dump("TEST-INFO | " + _TEST_FILE + " | executing cleanup function."); func(); } } /** * Add a test function to the list of tests that are to be run asynchronously. * * Each test function must call run_next_test() when it's done. Test files * should call run_next_test() in their run_test function to execute all * async tests. * * @return the test function that was passed in. */ var _gTests = []; function add_test(func) { _gTests.push([false, func]); return func; } // We lazy import Task.jsm so we don't incur a run-time penalty for all tests. var _Task; /** * Add a test function which is a Task function. * * Task functions are functions fed into Task.jsm's Task.spawn(). They are * generators that emit promises. * * If an exception is thrown, a do_check_* comparison fails, or if a rejected * promise is yielded, the test function aborts immediately and the test is * reported as a failure. * * Unlike add_test(), there is no need to call run_next_test(). The next test * will run automatically as soon the task function is exhausted. To trigger * premature (but successful) termination of the function, simply return or * throw a Task.Result instance. * * Example usage: * * add_task(function test() { * let result = yield Promise.resolve(true); * * do_check_true(result); * * let secondary = yield someFunctionThatReturnsAPromise(result); * do_check_eq(secondary, "expected value"); * }); * * add_task(function test_early_return() { * let result = yield somethingThatReturnsAPromise(); * * if (!result) { * // Test is ended immediately, with success. * return; * } * * do_check_eq(result, "foo"); * }); */ function add_task(func) { if (!_Task) { let ns = {}; _Task = Components.utils.import("resource://gre/modules/Task.jsm", ns).Task; } _gTests.push([true, func]); } /** * Runs the next test function from the list of async tests. */ var _gRunningTest = null; var _gTestIndex = 0; // The index of the currently running test. function run_next_test() { function _run_next_test() { if (_gTestIndex < _gTests.length) { do_test_pending(); let _isTask; [_isTask, _gRunningTest] = _gTests[_gTestIndex++]; _dump("TEST-INFO | " + _TEST_FILE + " | Starting " + _gRunningTest.name); if (_isTask) { _Task.spawn(_gRunningTest) .then(run_next_test, do_report_unexpected_exception); } else { // Exceptions do not kill asynchronous tests, so they'll time out. try { _gRunningTest(); } catch (e) { do_throw(e); } } } } // For sane stacks during failures, we execute this code soon, but not now. // We do this now, before we call do_test_finished(), to ensure the pending // counter (_tests_pending) never reaches 0 while we still have tests to run // (do_execute_soon bumps that counter). do_execute_soon(_run_next_test); if (_gRunningTest !== null) { // Close the previous test do_test_pending call. do_test_finished(); } } /** * End of code adapted from xpcshell head.js */ /** * JavaBridge facilitates communication between Java and JS. See * JavascriptBridge.java for the corresponding JavascriptBridge and docs. */ function JavaBridge(obj) { this._EVENT_TYPE = "Robocop:JS"; this._target = obj; // The number of replies needed to answer all outstanding sync calls. this._repliesNeeded = 0; this._Services.obs.addObserver(this, this._EVENT_TYPE, false); this._sendMessage("notify-loaded", []); }; JavaBridge.prototype = { _Services: Components.utils.import( "resource://gre/modules/Services.jsm", {}).Services, _sendMessageToJava: Components.utils.import( "resource://gre/modules/Messaging.jsm", {}).Messaging.sendRequest, _sendMessage: function (innerType, args) { this._sendMessageToJava({ type: this._EVENT_TYPE, innerType: innerType, method: args[0], args: Array.prototype.slice.call(args, 1), }); }, observe: function(subject, topic, data) { let message = JSON.parse(data); if (message.innerType === "sync-reply") { // Reply to our Javascript-to-Java sync call this._repliesNeeded--; return; } // Call the corresponding method on the target try { this._target[message.method].apply(this._target, message.args); } catch (e) { do_report_unexpected_exception(e, "Failed to call " + message.method); } if (message.innerType === "sync-call") { // Reply for sync message this._sendMessage("sync-reply", [message.method]); } }, /** * Synchronously call a method in Java, * given the method name followed by a list of arguments. */ syncCall: function (methodName /*, ... */) { this._sendMessage("sync-call", arguments); let thread = this._Services.tm.currentThread; let initialReplies = this._repliesNeeded; // Need one more reply to answer the current sync call. this._repliesNeeded++; // Wait for the reply to arrive. Normally we would not want to // spin the event loop, but here we're in a test and our API // specifies a synchronous call, so we spin the loop to wait for // the call to finish. while (this._repliesNeeded > initialReplies) { thread.processNextEvent(true); } }, /** * Asynchronously call a method in Java, * given the method name followed by a list of arguments. */ asyncCall: function (methodName /*, ... */) { this._sendMessage("async-call", arguments); }, /** * Disconnect with Java. */ disconnect: function () { this._Services.obs.removeObserver(this, this._EVENT_TYPE); }, };