'use strict';
/**
* Module dependencies.
*/
var EventEmitter = require('events').EventEmitter;
var Pending = require('./pending');
var utils = require('./utils');
var inherits = utils.inherits;
var debug = require('debug')('mocha:runner');
var Runnable = require('./runnable');
var filter = utils.filter;
var indexOf = utils.indexOf;
var some = utils.some;
var keys = utils.keys;
var stackFilter = utils.stackTraceFilter();
var stringify = utils.stringify;
var type = utils.type;
var undefinedError = utils.undefinedError;
var isArray = utils.isArray;
/**
* Non-enumerable globals.
*/
var globals = [
'setTimeout',
'clearTimeout',
'setInterval',
'clearInterval',
'XMLHttpRequest',
'Date',
'setImmediate',
'clearImmediate'
];
/**
* Expose `Runner`.
*/
module.exports = Runner;
/**
* Initialize a `Runner` for the given `suite`.
*
* Events:
*
* - `start` execution started
* - `end` execution complete
* - `suite` (suite) test suite execution started
* - `suite end` (suite) all tests (and sub-suites) have finished
* - `test` (test) test execution started
* - `test end` (test) test completed
* - `hook` (hook) hook execution started
* - `hook end` (hook) hook complete
* - `pass` (test) test passed
* - `fail` (test, err) test failed
* - `pending` (test) test pending
*
* @api public
* @param {Suite} suite Root suite
* @param {boolean} [delay] Whether or not to delay execution of root suite
* until ready.
*/
function Runner (suite, delay) {
var self = this;
this._globals = [];
this._abort = false;
this._delay = delay;
this.suite = suite;
this.started = false;
this.total = suite.total();
this.failures = 0;
this.on('test end', function (test) {
self.checkGlobals(test);
});
this.on('hook end', function (hook) {
self.checkGlobals(hook);
});
this._defaultGrep = /.*/;
this.grep(this._defaultGrep);
this.globals(this.globalProps().concat(extraGlobals()));
}
/**
* Wrapper for setImmediate, process.nextTick, or browser polyfill.
*
* @param {Function} fn
* @api private
*/
Runner.immediately = global.setImmediate || process.nextTick;
/**
* Inherit from `EventEmitter.prototype`.
*/
inherits(Runner, EventEmitter);
/**
* Run tests with full titles matching `re`. Updates runner.total
* with number of tests matched.
*
* @param {RegExp} re
* @param {Boolean} invert
* @return {Runner} for chaining
* @api public
* @param {RegExp} re
* @param {boolean} invert
* @return {Runner} Runner instance.
*/
Runner.prototype.grep = function (re, invert) {
debug('grep %s', re);
this._grep = re;
this._invert = invert;
this.total = this.grepTotal(this.suite);
return this;
};
/**
* Returns the number of tests matching the grep search for the
* given suite.
*
* @param {Suite} suite
* @return {Number}
* @api public
* @param {Suite} suite
* @return {number}
*/
Runner.prototype.grepTotal = function (suite) {
var self = this;
var total = 0;
suite.eachTest(function (test) {
var match = self._grep.test(test.fullTitle());
if (self._invert) {
match = !match;
}
if (match) {
total++;
}
});
return total;
};
/**
* Return a list of global properties.
*
* @return {Array}
* @api private
*/
Runner.prototype.globalProps = function () {
var props = keys(global);
// non-enumerables
for (var i = 0; i < globals.length; ++i) {
if (~indexOf(props, globals[i])) {
continue;
}
props.push(globals[i]);
}
return props;
};
/**
* Allow the given `arr` of globals.
*
* @param {Array} arr
* @return {Runner} for chaining
* @api public
* @param {Array} arr
* @return {Runner} Runner instance.
*/
Runner.prototype.globals = function (arr) {
if (!arguments.length) {
return this._globals;
}
debug('globals %j', arr);
this._globals = this._globals.concat(arr);
return this;
};
/**
* Check for global variable leaks.
*
* @api private
*/
Runner.prototype.checkGlobals = function (test) {
if (this.ignoreLeaks) {
return;
}
var ok = this._globals;
var globals = this.globalProps();
var leaks;
if (test) {
ok = ok.concat(test._allowedGlobals || []);
}
if (this.prevGlobalsLength === globals.length) {
return;
}
this.prevGlobalsLength = globals.length;
leaks = filterLeaks(ok, globals);
this._globals = this._globals.concat(leaks);
if (leaks.length > 1) {
this.fail(test, new Error('global leaks detected: ' + leaks.join(', ') + ''));
} else if (leaks.length) {
this.fail(test, new Error('global leak detected: ' + leaks[0]));
}
};
/**
* Fail the given `test`.
*
* @api private
* @param {Test} test
* @param {Error} err
*/
Runner.prototype.fail = function (test, err) {
if (test.isPending()) {
return;
}
++this.failures;
test.state = 'failed';
if (!(err instanceof Error || err && typeof err.message === 'string')) {
err = new Error('the ' + type(err) + ' ' + stringify(err) + ' was thrown, throw an Error :)');
}
try {
err.stack = (this.fullStackTrace || !err.stack)
? err.stack
: stackFilter(err.stack);
} catch (ignored) {
// some environments do not take kindly to monkeying with the stack
}
this.emit('fail', test, err);
};
/**
* Fail the given `hook` with `err`.
*
* Hook failures work in the following pattern:
* - If bail, then exit
* - Failed `before` hook skips all tests in a suite and subsuites,
* but jumps to corresponding `after` hook
* - Failed `before each` hook skips remaining tests in a
* suite and jumps to corresponding `after each` hook,
* which is run only once
* - Failed `after` hook does not alter
* execution order
* - Failed `after each` hook skips remaining tests in a
* suite and subsuites, but executes other `after each`
* hooks
*
* @api private
* @param {Hook} hook
* @param {Error} err
*/
Runner.prototype.failHook = function (hook, err) {
if (hook.ctx && hook.ctx.currentTest) {
hook.originalTitle = hook.originalTitle || hook.title;
hook.title = hook.originalTitle + ' for "' + hook.ctx.currentTest.title + '"';
}
this.fail(hook, err);
if (this.suite.bail()) {
this.emit('end');
}
};
/**
* Run hook `name` callbacks and then invoke `fn()`.
*
* @api private
* @param {string} name
* @param {Function} fn
*/
Runner.prototype.hook = function (name, fn) {
var suite = this.suite;
var hooks = suite['_' + name];
var self = this;
function next (i) {
var hook = hooks[i];
if (!hook) {
return fn();
}
self.currentRunnable = hook;
hook.ctx.currentTest = self.test;
self.emit('hook', hook);
if (!hook.listeners('error').length) {
hook.on('error', function (err) {
self.failHook(hook, err);
});
}
hook.run(function (err) {
var testError = hook.error();
if (testError) {
self.fail(self.test, testError);
}
if (err) {
if (err instanceof Pending) {
if (name === 'beforeEach' || name === 'afterEach') {
self.test.pending = true;
} else {
utils.forEach(suite.tests, function (test) {
test.pending = true;
});
// a pending hook won't be executed twice.
hook.pending = true;
}
} else {
self.failHook(hook, err);
// stop executing hooks, notify callee of hook err
return fn(err);
}
}
self.emit('hook end', hook);
delete hook.ctx.currentTest;
next(++i);
});
}
Runner.immediately(function () {
next(0);
});
};
/**
* Run hook `name` for the given array of `suites`
* in order, and callback `fn(err, errSuite)`.
*
* @api private
* @param {string} name
* @param {Array} suites
* @param {Function} fn
*/
Runner.prototype.hooks = function (name, suites, fn) {
var self = this;
var orig = this.suite;
function next (suite) {
self.suite = suite;
if (!suite) {
self.suite = orig;
return fn();
}
self.hook(name, function (err) {
if (err) {
var errSuite = self.suite;
self.suite = orig;
return fn(err, errSuite);
}
next(suites.pop());
});
}
next(suites.pop());
};
/**
* Run hooks from the top level down.
*
* @param {String} name
* @param {Function} fn
* @api private
*/
Runner.prototype.hookUp = function (name, fn) {
var suites = [this.suite].concat(this.parents()).reverse();
this.hooks(name, suites, fn);
};
/**
* Run hooks from the bottom up.
*
* @param {String} name
* @param {Function} fn
* @api private
*/
Runner.prototype.hookDown = function (name, fn) {
var suites = [this.suite].concat(this.parents());
this.hooks(name, suites, fn);
};
/**
* Return an array of parent Suites from
* closest to furthest.
*
* @return {Array}
* @api private
*/
Runner.prototype.parents = function () {
var suite = this.suite;
var suites = [];
while (suite.parent) {
suite = suite.parent;
suites.push(suite);
}
return suites;
};
/**
* Run the current test and callback `fn(err)`.
*
* @param {Function} fn
* @api private
*/
Runner.prototype.runTest = function (fn) {
var self = this;
var test = this.test;
if (!test) {
return;
}
if (this.asyncOnly) {
test.asyncOnly = true;
}
if (this.allowUncaught) {
test.allowUncaught = true;
return test.run(fn);
}
try {
test.on('error', function (err) {
self.fail(test, err);
});
test.run(fn);
} catch (err) {
fn(err);
}
};
/**
* Run tests in the given `suite` and invoke the callback `fn()` when complete.
*
* @api private
* @param {Suite} suite
* @param {Function} fn
*/
Runner.prototype.runTests = function (suite, fn) {
var self = this;
var tests = suite.tests.slice();
var test;
function hookErr (_, errSuite, after) {
// before/after Each hook for errSuite failed:
var orig = self.suite;
// for failed 'after each' hook start from errSuite parent,
// otherwise start from errSuite itself
self.suite = after ? errSuite.parent : errSuite;
if (self.suite) {
// call hookUp afterEach
self.hookUp('afterEach', function (err2, errSuite2) {
self.suite = orig;
// some hooks may fail even now
if (err2) {
return hookErr(err2, errSuite2, true);
}
// report error suite
fn(errSuite);
});
} else {
// there is no need calling other 'after each' hooks
self.suite = orig;
fn(errSuite);
}
}
function next (err, errSuite) {
// if we bail after first err
if (self.failures && suite._bail) {
return fn();
}
if (self._abort) {
return fn();
}
if (err) {
return hookErr(err, errSuite, true);
}
// next test
test = tests.shift();
// all done
if (!test) {
return fn();
}
// grep
var match = self._grep.test(test.fullTitle());
if (self._invert) {
match = !match;
}
if (!match) {
// Run immediately only if we have defined a grep. When we
// define a grep — It can cause maximum callstack error if
// the grep is doing a large recursive loop by neglecting
// all tests. The run immediately function also comes with
// a performance cost. So we don't want to run immediately
// if we run the whole test suite, because running the whole
// test suite don't do any immediate recursive loops. Thus,
// allowing a JS runtime to breathe.
if (self._grep !== self._defaultGrep) {
Runner.immediately(next);
} else {
next();
}
return;
}
if (test.isPending()) {
self.emit('pending', test);
self.emit('test end', test);
return next();
}
// execute test and hook(s)
self.emit('test', self.test = test);
self.hookDown('beforeEach', function (err, errSuite) {
if (test.isPending()) {
self.emit('pending', test);
self.emit('test end', test);
return next();
}
if (err) {
return hookErr(err, errSuite, false);
}
self.currentRunnable = self.test;
self.runTest(function (err) {
test = self.test;
if (err) {
var retry = test.currentRetry();
if (err instanceof Pending) {
test.pending = true;
self.emit('pending', test);
} else if (retry < test.retries()) {
var clonedTest = test.clone();
clonedTest.currentRetry(retry + 1);
tests.unshift(clonedTest);
// Early return + hook trigger so that it doesn't
// increment the count wrong
return self.hookUp('afterEach', next);
} else {
self.fail(test, err);
}
self.emit('test end', test);
if (err instanceof Pending) {
return next();
}
return self.hookUp('afterEach', next);
}
test.state = 'passed';
self.emit('pass', test);
self.emit('test end', test);
self.hookUp('afterEach', next);
});
});
}
this.next = next;
this.hookErr = hookErr;
next();
};
/**
* Run the given `suite` and invoke the callback `fn()` when complete.
*
* @api private
* @param {Suite} suite
* @param {Function} fn
*/
Runner.prototype.runSuite = function (suite, fn) {
var i = 0;
var self = this;
var total = this.grepTotal(suite);
var afterAllHookCalled = false;
debug('run suite %s', suite.fullTitle());
if (!total || (self.failures && suite._bail)) {
return fn();
}
this.emit('suite', this.suite = suite);
function next (errSuite) {
if (errSuite) {
// current suite failed on a hook from errSuite
if (errSuite === suite) {
// if errSuite is current suite
// continue to the next sibling suite
return done();
}
// errSuite is among the parents of current suite
// stop execution of errSuite and all sub-suites
return done(errSuite);
}
if (self._abort) {
return done();
}
var curr = suite.suites[i++];
if (!curr) {
return done();
}
// Avoid grep neglecting large number of tests causing a
// huge recursive loop and thus a maximum call stack error.
// See comment in `this.runTests()` for more information.
if (self._grep !== self._defaultGrep) {
Runner.immediately(function () {
self.runSuite(curr, next);
});
} else {
self.runSuite(curr, next);
}
}
function done (errSuite) {
self.suite = suite;
self.nextSuite = next;
if (afterAllHookCalled) {
fn(errSuite);
} else {
// mark that the afterAll block has been called once
// and so can be skipped if there is an error in it.
afterAllHookCalled = true;
// remove reference to test
delete self.test;
self.hook('afterAll', function () {
self.emit('suite end', suite);
fn(errSuite);
});
}
}
this.nextSuite = next;
this.hook('beforeAll', function (err) {
if (err) {
return done();
}
self.runTests(suite, next);
});
};
/**
* Handle uncaught exceptions.
*
* @param {Error} err
* @api private
*/
Runner.prototype.uncaught = function (err) {
if (err) {
debug('uncaught exception %s', err !== function () {
return this;
}.call(err) ? err : (err.message || err));
} else {
debug('uncaught undefined exception');
err = undefinedError();
}
err.uncaught = true;
var runnable = this.currentRunnable;
if (!runnable) {
runnable = new Runnable('Uncaught error outside test suite');
runnable.parent = this.suite;
if (this.started) {
this.fail(runnable, err);
} else {
// Can't recover from this failure
this.emit('start');
this.fail(runnable, err);
this.emit('end');
}
return;
}
runnable.clearTimeout();
// Ignore errors if complete or pending
if (runnable.state || runnable.isPending()) {
return;
}
this.fail(runnable, err);
// recover from test
if (runnable.type === 'test') {
this.emit('test end', runnable);
this.hookUp('afterEach', this.next);
return;
}
// recover from hooks
if (runnable.type === 'hook') {
var errSuite = this.suite;
// if hook failure is in afterEach block
if (runnable.fullTitle().indexOf('after each') > -1) {
return this.hookErr(err, errSuite, true);
}
// if hook failure is in beforeEach block
if (runnable.fullTitle().indexOf('before each') > -1) {
return this.hookErr(err, errSuite, false);
}
// if hook failure is in after or before blocks
return this.nextSuite(errSuite);
}
// bail
this.emit('end');
};
/**
* Cleans up the references to all the deferred functions
* (before/after/beforeEach/afterEach) and tests of a Suite.
* These must be deleted otherwise a memory leak can happen,
* as those functions may reference variables from closures,
* thus those variables can never be garbage collected as long
* as the deferred functions exist.
*
* @param {Suite} suite
*/
function cleanSuiteReferences (suite) {
function cleanArrReferences (arr) {
for (var i = 0; i < arr.length; i++) {
delete arr[i].fn;
}
}
if (isArray(suite._beforeAll)) {
cleanArrReferences(suite._beforeAll);
}
if (isArray(suite._beforeEach)) {
cleanArrReferences(suite._beforeEach);
}
if (isArray(suite._afterAll)) {
cleanArrReferences(suite._afterAll);
}
if (isArray(suite._afterEach)) {
cleanArrReferences(suite._afterEach);
}
for (var i = 0; i < suite.tests.length; i++) {
delete suite.tests[i].fn;
}
}
/**
* Run the root suite and invoke `fn(failures)`
* on completion.
*
* @param {Function} fn
* @return {Runner} for chaining
* @api public
* @param {Function} fn
* @return {Runner} Runner instance.
*/
Runner.prototype.run = function (fn) {
var self = this;
var rootSuite = this.suite;
// If there is an `only` filter
if (this.hasOnly) {
filterOnly(rootSuite);
}
fn = fn || function () {};
function uncaught (err) {
self.uncaught(err);
}
function start () {
self.started = true;
self.emit('start');
self.runSuite(rootSuite, function () {
debug('finished running');
self.emit('end');
});
}
debug('start');
// references cleanup to avoid memory leaks
this.on('suite end', cleanSuiteReferences);
// callback
this.on('end', function () {
debug('end');
process.removeListener('uncaughtException', uncaught);
fn(self.failures);
});
// uncaught exception
process.on('uncaughtException', uncaught);
if (this._delay) {
// for reporters, I guess.
// might be nice to debounce some dots while we wait.
this.emit('waiting', rootSuite);
rootSuite.once('run', start);
} else {
start();
}
return this;
};
/**
* Cleanly abort execution.
*
* @api public
* @return {Runner} Runner instance.
*/
Runner.prototype.abort = function () {
debug('aborting');
this._abort = true;
return this;
};
/**
* Filter suites based on `isOnly` logic.
*
* @param {Array} suite
* @returns {Boolean}
* @api private
*/
function filterOnly (suite) {
if (suite._onlyTests.length) {
// If the suite contains `only` tests, run those and ignore any nested suites.
suite.tests = suite._onlyTests;
suite.suites = [];
} else {
// Otherwise, do not run any of the tests in this suite.
suite.tests = [];
utils.forEach(suite._onlySuites, function (onlySuite) {
// If there are other `only` tests/suites nested in the current `only` suite, then filter that `only` suite.
// Otherwise, all of the tests on this `only` suite should be run, so don't filter it.
if (hasOnly(onlySuite)) {
filterOnly(onlySuite);
}
});
// Run the `only` suites, as well as any other suites that have `only` tests/suites as descendants.
suite.suites = filter(suite.suites, function (childSuite) {
return indexOf(suite._onlySuites, childSuite) !== -1 || filterOnly(childSuite);
});
}
// Keep the suite only if there is something to run
return suite.tests.length || suite.suites.length;
}
/**
* Determines whether a suite has an `only` test or suite as a descendant.
*
* @param {Array} suite
* @returns {Boolean}
* @api private
*/
function hasOnly (suite) {
return suite._onlyTests.length || suite._onlySuites.length || some(suite.suites, hasOnly);
}
/**
* Filter leaks with the given globals flagged as `ok`.
*
* @api private
* @param {Array} ok
* @param {Array} globals
* @return {Array}
*/
function filterLeaks (ok, globals) {
return filter(globals, function (key) {
// Firefox and Chrome exposes iframes as index inside the window object
if (/^\d+/.test(key)) {
return false;
}
// in firefox
// if runner runs in an iframe, this iframe's window.getInterface method
// not init at first it is assigned in some seconds
if (global.navigator && (/^getInterface/).test(key)) {
return false;
}
// an iframe could be approached by window[iframeIndex]
// in ie6,7,8 and opera, iframeIndex is enumerable, this could cause leak
if (global.navigator && (/^\d+/).test(key)) {
return false;
}
// Opera and IE expose global variables for HTML element IDs (issue #243)
if (/^mocha-/.test(key)) {
return false;
}
var matched = filter(ok, function (ok) {
if (~ok.indexOf('*')) {
return key.indexOf(ok.split('*')[0]) === 0;
}
return key === ok;
});
return !matched.length && (!global.navigator || key !== 'onerror');
});
}
/**
* Array of globals dependent on the environment.
*
* @return {Array}
* @api private
*/
function extraGlobals () {
if (typeof process === 'object' && typeof process.version === 'string') {
var parts = process.version.split('.');
var nodeVersion = utils.reduce(parts, function (a, v) {
return a << 8 | v;
});
// 'errno' was renamed to process._errno in v0.9.11.
if (nodeVersion < 0x00090B) {
return ['errno'];
}
}
return [];
}
