runner.js

'use strict';

/**
 * Module dependencies.
 * @private
 */
var EventEmitter = require('events').EventEmitter;
var Pending = require('./pending');
var utils = require('./utils');
var debug = require('debug')('mocha:runner');
var Runnable = require('./runnable');
var Suite = require('./suite');
var HOOK_TYPE_BEFORE_EACH = Suite.constants.HOOK_TYPE_BEFORE_EACH;
var HOOK_TYPE_AFTER_EACH = Suite.constants.HOOK_TYPE_AFTER_EACH;
var HOOK_TYPE_AFTER_ALL = Suite.constants.HOOK_TYPE_AFTER_ALL;
var HOOK_TYPE_BEFORE_ALL = Suite.constants.HOOK_TYPE_BEFORE_ALL;
var EVENT_ROOT_SUITE_RUN = Suite.constants.EVENT_ROOT_SUITE_RUN;
var STATE_FAILED = Runnable.constants.STATE_FAILED;
var STATE_PASSED = Runnable.constants.STATE_PASSED;
var STATE_PENDING = Runnable.constants.STATE_PENDING;
var stackFilter = utils.stackTraceFilter();
var stringify = utils.stringify;

const {
  createInvalidExceptionError,
  createUnsupportedError,
  createFatalError,
  isMochaError,
  constants: errorConstants
} = require('./errors');

/**
 * Non-enumerable globals.
 * @private
 * @readonly
 */
var globals = [
  'setTimeout',
  'clearTimeout',
  'setInterval',
  'clearInterval',
  'XMLHttpRequest',
  'Date',
  'setImmediate',
  'clearImmediate'
];

var constants = utils.defineConstants(
  /**
   * {@link Runner}-related constants.
   * @public
   * @memberof Runner
   * @readonly
   * @alias constants
   * @static
   * @enum {string}
   */
  {
    /**
     * Emitted when {@link Hook} execution begins
     */
    EVENT_HOOK_BEGIN: 'hook',
    /**
     * Emitted when {@link Hook} execution ends
     */
    EVENT_HOOK_END: 'hook end',
    /**
     * Emitted when Root {@link Suite} execution begins (all files have been parsed and hooks/tests are ready for execution)
     */
    EVENT_RUN_BEGIN: 'start',
    /**
     * Emitted when Root {@link Suite} execution has been delayed via `delay` option
     */
    EVENT_DELAY_BEGIN: 'waiting',
    /**
     * Emitted when delayed Root {@link Suite} execution is triggered by user via `global.run()`
     */
    EVENT_DELAY_END: 'ready',
    /**
     * Emitted when Root {@link Suite} execution ends
     */
    EVENT_RUN_END: 'end',
    /**
     * Emitted when {@link Suite} execution begins
     */
    EVENT_SUITE_BEGIN: 'suite',
    /**
     * Emitted when {@link Suite} execution ends
     */
    EVENT_SUITE_END: 'suite end',
    /**
     * Emitted when {@link Test} execution begins
     */
    EVENT_TEST_BEGIN: 'test',
    /**
     * Emitted when {@link Test} execution ends
     */
    EVENT_TEST_END: 'test end',
    /**
     * Emitted when {@link Test} execution fails
     */
    EVENT_TEST_FAIL: 'fail',
    /**
     * Emitted when {@link Test} execution succeeds
     */
    EVENT_TEST_PASS: 'pass',
    /**
     * Emitted when {@link Test} becomes pending
     */
    EVENT_TEST_PENDING: 'pending',
    /**
     * Emitted when {@link Test} execution has failed, but will retry
     */
    EVENT_TEST_RETRY: 'retry',
    /**
     * Initial state of Runner
     */
    STATE_IDLE: 'idle',
    /**
     * State set to this value when the Runner has started running
     */
    STATE_RUNNING: 'running',
    /**
     * State set to this value when the Runner has stopped
     */
    STATE_STOPPED: 'stopped'
  }
);

class Runner extends EventEmitter {
  /**
   * Initialize a `Runner` at the Root {@link Suite}, which represents a hierarchy of {@link Suite|Suites} and {@link Test|Tests}.
   *
   * @extends external:EventEmitter
   * @public
   * @class
   * @param {Suite} suite - Root suite
   * @param {Object} [opts] - Settings object
   * @param {boolean} [opts.cleanReferencesAfterRun] - Whether to clean references to test fns and hooks when a suite is done.
   * @param {boolean} [opts.delay] - Whether to delay execution of root suite until ready.
   * @param {boolean} [opts.dryRun] - Whether to report tests without running them.
   * @param {boolean} [opts.failZero] - Whether to fail test run if zero tests encountered.
   */
  constructor(suite, opts = {}) {
    super();

    var self = this;
    this._globals = [];
    this._abort = false;
    this.suite = suite;
    this._opts = opts;
    this.state = constants.STATE_IDLE;
    this.total = suite.total();
    this.failures = 0;
    /**
     * @type {Map<EventEmitter,Map<string,Set<EventListener>>>}
     */
    this._eventListeners = new Map();
    this.on(constants.EVENT_TEST_END, function (test) {
      if (test.type === 'test' && test.retriedTest() && test.parent) {
        var idx =
          test.parent.tests && test.parent.tests.indexOf(test.retriedTest());
        if (idx > -1) test.parent.tests[idx] = test;
      }
      self.checkGlobals(test);
    });
    this.on(constants.EVENT_HOOK_END, function (hook) {
      self.checkGlobals(hook);
    });
    this._defaultGrep = /.*/;
    this.grep(this._defaultGrep);
    this.globals(this.globalProps());

    this.uncaught = this._uncaught.bind(this);
    this.unhandled = (reason, promise) => {
      if (isMochaError(reason)) {
        debug(
          'trapped unhandled rejection coming out of Mocha; forwarding to uncaught handler:',
          reason
        );
        this.uncaught(reason);
      } else {
        debug(
          'trapped unhandled rejection from (probably) user code; re-emitting on process'
        );
        this._removeEventListener(
          process,
          'unhandledRejection',
          this.unhandled
        );
        try {
          process.emit('unhandledRejection', reason, promise);
        } finally {
          this._addEventListener(process, 'unhandledRejection', this.unhandled);
        }
      }
    };
  }
}

/**
 * Wrapper for setImmediate, process.nextTick, or browser polyfill.
 *
 * @param {Function} fn
 * @private
 */
Runner.immediately = global.setImmediate || process.nextTick;

/**
 * Replacement for `target.on(eventName, listener)` that does bookkeeping to remove them when this runner instance is disposed.
 * @param {EventEmitter} target - The `EventEmitter`
 * @param {string} eventName - The event name
 * @param {string} fn - Listener function
 * @private
 */
Runner.prototype._addEventListener = function (target, eventName, listener) {
  debug(
    '_addEventListener(): adding for event %s; %d current listeners',
    eventName,
    target.listenerCount(eventName)
  );
  /* istanbul ignore next */
  if (
    this._eventListeners.has(target) &&
    this._eventListeners.get(target).has(eventName) &&
    this._eventListeners.get(target).get(eventName).has(listener)
  ) {
    debug(
      'warning: tried to attach duplicate event listener for %s',
      eventName
    );
    return;
  }
  target.on(eventName, listener);
  const targetListeners = this._eventListeners.has(target)
    ? this._eventListeners.get(target)
    : new Map();
  const targetEventListeners = targetListeners.has(eventName)
    ? targetListeners.get(eventName)
    : new Set();
  targetEventListeners.add(listener);
  targetListeners.set(eventName, targetEventListeners);
  this._eventListeners.set(target, targetListeners);
};

/**
 * Replacement for `target.removeListener(eventName, listener)` that also updates the bookkeeping.
 * @param {EventEmitter} target - The `EventEmitter`
 * @param {string} eventName - The event name
 * @param {function} listener - Listener function
 * @private
 */
Runner.prototype._removeEventListener = function (target, eventName, listener) {
  target.removeListener(eventName, listener);

  if (this._eventListeners.has(target)) {
    const targetListeners = this._eventListeners.get(target);
    if (targetListeners.has(eventName)) {
      const targetEventListeners = targetListeners.get(eventName);
      targetEventListeners.delete(listener);
      if (!targetEventListeners.size) {
        targetListeners.delete(eventName);
      }
    }
    if (!targetListeners.size) {
      this._eventListeners.delete(target);
    }
  } else {
    debug('trying to remove listener for untracked object %s', target);
  }
};

/**
 * Removes all event handlers set during a run on this instance.
 * Remark: this does _not_ clean/dispose the tests or suites themselves.
 */
Runner.prototype.dispose = function () {
  this.removeAllListeners();
  this._eventListeners.forEach((targetListeners, target) => {
    targetListeners.forEach((targetEventListeners, eventName) => {
      targetEventListeners.forEach(listener => {
        target.removeListener(eventName, listener);
      });
    });
  });
  this._eventListeners.clear();
};

/**
 * Run tests with full titles matching `re`. Updates runner.total
 * with number of tests matched.
 *
 * @public
 * @memberof Runner
 * @param {RegExp} re
 * @param {boolean} invert
 * @return {Runner} Runner instance.
 */
Runner.prototype.grep = function (re, invert) {
  debug('grep(): setting to %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.
 *
 * @memberof Runner
 * @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}
 * @private
 */
Runner.prototype.globalProps = function () {
  var props = Object.keys(global);

  // non-enumerables
  for (var i = 0; i < globals.length; ++i) {
    if (~props.indexOf(globals[i])) {
      continue;
    }
    props.push(globals[i]);
  }

  return props;
};

/**
 * Allow the given `arr` of globals.
 *
 * @public
 * @memberof Runner
 * @param {Array} arr
 * @return {Runner} Runner instance.
 */
Runner.prototype.globals = function (arr) {
  if (!arguments.length) {
    return this._globals;
  }
  debug('globals(): setting to %O', arr);
  this._globals = this._globals.concat(arr);
  return this;
};

/**
 * Check for global variable leaks.
 *
 * @private
 */
Runner.prototype.checkGlobals = function (test) {
  if (!this.checkLeaks) {
    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) {
    var msg = `global leak(s) detected: ${leaks.map(e => `'${e}'`).join(', ')}`;
    this.fail(test, new Error(msg));
  }
};

/**
 * Fail the given `test`.
 *
 * If `test` is a hook, failures work in the following pattern:
 * - If bail, run corresponding `after each` and `after` hooks,
 *   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
 *
 * @private
 * @param {Runnable} test
 * @param {Error} err
 * @param {boolean} [force=false] - Whether to fail a pending test.
 */
Runner.prototype.fail = function (test, err, force) {
  force = force === true;
  if (test.isPending() && !force) {
    return;
  }
  if (this.state === constants.STATE_STOPPED) {
    if (err.code === errorConstants.MULTIPLE_DONE) {
      throw err;
    }
    throw createFatalError(
      'Test failed after root suite execution completed!',
      err
    );
  }

  ++this.failures;
  debug('total number of failures: %d', this.failures);
  test.state = STATE_FAILED;

  if (!isError(err)) {
    err = thrown2Error(err);
  }

  // Filter the stack traces
  if (!this.fullStackTrace) {
    const alreadyFiltered = new Set();
    let currentErr = err;

    while (currentErr && currentErr.stack && !alreadyFiltered.has(currentErr)) {
      alreadyFiltered.add(currentErr);

      try {
        currentErr.stack = stackFilter(currentErr.stack);
      } catch (ignore) {
        // some environments do not take kindly to monkeying with the stack
      }

      currentErr = currentErr.cause;
    }
  }

  this.emit(constants.EVENT_TEST_FAIL, test, err);
};

/**
 * Run hook `name` callbacks and then invoke `fn()`.
 *
 * @private
 * @param {string} name
 * @param {Function} fn
 */

Runner.prototype.hook = function (name, fn) {
  if (this._opts.dryRun) return fn();

  var suite = this.suite;
  var hooks = suite.getHooks(name);
  var self = this;

  function next(i) {
    var hook = hooks[i];
    if (!hook) {
      return fn();
    }
    self.currentRunnable = hook;

    if (name === HOOK_TYPE_BEFORE_ALL) {
      hook.ctx.currentTest = hook.parent.tests[0];
    } else if (name === HOOK_TYPE_AFTER_ALL) {
      hook.ctx.currentTest = hook.parent.tests[hook.parent.tests.length - 1];
    } else {
      hook.ctx.currentTest = self.test;
    }

    setHookTitle(hook);

    hook.allowUncaught = self.allowUncaught;

    self.emit(constants.EVENT_HOOK_BEGIN, hook);

    if (!hook.listeners('error').length) {
      self._addEventListener(hook, 'error', function (err) {
        self.fail(hook, err);
      });
    }

    hook.run(function cbHookRun(err) {
      var testError = hook.error();
      if (testError) {
        self.fail(self.test, testError);
      }
      // conditional skip
      if (hook.pending) {
        if (name === HOOK_TYPE_AFTER_EACH) {
          // TODO define and implement use case
          if (self.test) {
            self.test.pending = true;
          }
        } else if (name === HOOK_TYPE_BEFORE_EACH) {
          if (self.test) {
            self.test.pending = true;
          }
          self.emit(constants.EVENT_HOOK_END, hook);
          hook.pending = false; // activates hook for next test
          return fn(new Error('abort hookDown'));
        } else if (name === HOOK_TYPE_BEFORE_ALL) {
          suite.tests.forEach(function (test) {
            test.pending = true;
          });
          suite.suites.forEach(function (suite) {
            suite.pending = true;
          });
          hooks = [];
        } else {
          hook.pending = false;
          var errForbid = createUnsupportedError('`this.skip` forbidden');
          self.fail(hook, errForbid);
          return fn(errForbid);
        }
      } else if (err) {
        self.fail(hook, err);
        // stop executing hooks, notify callee of hook err
        return fn(err);
      }
      self.emit(constants.EVENT_HOOK_END, hook);
      delete hook.ctx.currentTest;
      setHookTitle(hook);
      next(++i);
    });

    function setHookTitle(hook) {
      hook.originalTitle = hook.originalTitle || hook.title;
      if (hook.ctx && hook.ctx.currentTest) {
        hook.title = `${hook.originalTitle} for "${hook.ctx.currentTest.title}"`;
      } else {
        var parentTitle;
        if (hook.parent.title) {
          parentTitle = hook.parent.title;
        } else {
          parentTitle = hook.parent.root ? '{root}' : '';
        }
        hook.title = `${hook.originalTitle} in "${parentTitle}"`;
      }
    }
  }

  Runner.immediately(function () {
    next(0);
  });
};

/**
 * Run hook `name` for the given array of `suites`
 * in order, and callback `fn(err, errSuite)`.
 *
 * @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 'afterEach' hooks from bottom up.
 *
 * @param {String} name
 * @param {Function} fn
 * @private
 */
Runner.prototype.hookUp = function (name, fn) {
  var suites = [this.suite].concat(this.parents()).reverse();
  this.hooks(name, suites, fn);
};

/**
 * Run 'beforeEach' hooks from top level down.
 *
 * @param {String} name
 * @param {Function} fn
 * @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}
 * @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
 * @private
 */
Runner.prototype.runTest = function (fn) {
  if (this._opts.dryRun) return Runner.immediately(fn);

  var self = this;
  var test = this.test;

  if (!test) {
    return;
  }

  if (this.asyncOnly) {
    test.asyncOnly = true;
  }
  this._addEventListener(test, 'error', function (err) {
    self.fail(test, err);
  });
  if (this.allowUncaught) {
    test.allowUncaught = true;
    return test.run(fn);
  }
  try {
    test.run(fn);
  } catch (err) {
    fn(err);
  }
};

/**
 * Run tests in the given `suite` and invoke the callback `fn()` when complete.
 *
 * @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) {
      self.hookUp(HOOK_TYPE_AFTER_EACH, 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) {
      tests = [];
    }

    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;
    }

    // static skip, no hooks are executed
    if (test.isPending()) {
      if (self.forbidPending) {
        self.fail(test, new Error('Pending test forbidden'), true);
      } else {
        test.state = STATE_PENDING;
        self.emit(constants.EVENT_TEST_PENDING, test);
      }
      self.emit(constants.EVENT_TEST_END, test);
      return next();
    }

    // execute test and hook(s)
    self.emit(constants.EVENT_TEST_BEGIN, (self.test = test));
    self.hookDown(HOOK_TYPE_BEFORE_EACH, function (err, errSuite) {
      // conditional skip within beforeEach
      if (test.isPending()) {
        if (self.forbidPending) {
          self.fail(test, new Error('Pending test forbidden'), true);
        } else {
          test.state = STATE_PENDING;
          self.emit(constants.EVENT_TEST_PENDING, test);
        }
        self.emit(constants.EVENT_TEST_END, test);
        // skip inner afterEach hooks below errSuite level
        var origSuite = self.suite;
        self.suite = errSuite || self.suite;
        return self.hookUp(HOOK_TYPE_AFTER_EACH, function (e, eSuite) {
          self.suite = origSuite;
          next(e, eSuite);
        });
      }
      if (err) {
        return hookErr(err, errSuite, false);
      }
      self.currentRunnable = self.test;
      self.runTest(function (err) {
        test = self.test;
        // conditional skip within it
        if (test.pending) {
          if (self.forbidPending) {
            self.fail(test, new Error('Pending test forbidden'), true);
          } else {
            test.state = STATE_PENDING;
            self.emit(constants.EVENT_TEST_PENDING, test);
          }
          self.emit(constants.EVENT_TEST_END, test);
          return self.hookUp(HOOK_TYPE_AFTER_EACH, next);
        } else if (err) {
          var retry = test.currentRetry();
          if (retry < test.retries()) {
            var clonedTest = test.clone();
            clonedTest.currentRetry(retry + 1);
            tests.unshift(clonedTest);

            self.emit(constants.EVENT_TEST_RETRY, test, err);

            // Early return + hook trigger so that it doesn't
            // increment the count wrong
            return self.hookUp(HOOK_TYPE_AFTER_EACH, next);
          } else {
            self.fail(test, err);
          }
          self.emit(constants.EVENT_TEST_END, test);
          return self.hookUp(HOOK_TYPE_AFTER_EACH, next);
        }

        test.state = STATE_PASSED;
        self.emit(constants.EVENT_TEST_PASS, test);
        self.emit(constants.EVENT_TEST_END, test);
        self.hookUp(HOOK_TYPE_AFTER_EACH, next);
      });
    });
  }

  this.next = next;
  this.hookErr = hookErr;
  next();
};

/**
 * Run the given `suite` and invoke the callback `fn()` when complete.
 *
 * @private
 * @param {Suite} suite
 * @param {Function} fn
 */
Runner.prototype.runSuite = function (suite, fn) {
  var i = 0;
  var self = this;
  var total = this.grepTotal(suite);

  debug('runSuite(): running %s', suite.fullTitle());

  if (!total || (self.failures && suite._bail)) {
    debug('runSuite(): bailing');
    return fn();
  }

  this.emit(constants.EVENT_SUITE_BEGIN, (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;

    // remove reference to test
    delete self.test;

    self.hook(HOOK_TYPE_AFTER_ALL, function () {
      self.emit(constants.EVENT_SUITE_END, suite);
      fn(errSuite);
    });
  }

  this.nextSuite = next;

  this.hook(HOOK_TYPE_BEFORE_ALL, function (err) {
    if (err) {
      return done();
    }
    self.runTests(suite, next);
  });
};

/**
 * Handle uncaught exceptions within runner.
 *
 * This function is bound to the instance as `Runner#uncaught` at instantiation
 * time. It's intended to be listening on the `Process.uncaughtException` event.
 * In order to not leak EE listeners, we need to ensure no more than a single
 * `uncaughtException` listener exists per `Runner`.  The only way to do
 * this--because this function needs the context (and we don't have lambdas)--is
 * to use `Function.prototype.bind`. We need strict equality to unregister and
 * _only_ unregister the _one_ listener we set from the
 * `Process.uncaughtException` event; would be poor form to just remove
 * everything. See {@link Runner#run} for where the event listener is registered
 * and unregistered.
 * @param {Error} err - Some uncaught error
 * @private
 */
Runner.prototype._uncaught = function (err) {
  // this is defensive to prevent future developers from mis-calling this function.
  // it's more likely that it'd be called with the incorrect context--say, the global
  // `process` object--than it would to be called with a context that is not a "subclass"
  // of `Runner`.
  if (!(this instanceof Runner)) {
    throw createFatalError(
      'Runner#uncaught() called with invalid context',
      this
    );
  }
  if (err instanceof Pending) {
    debug('uncaught(): caught a Pending');
    return;
  }
  // browser does not exit script when throwing in global.onerror()
  if (this.allowUncaught && !utils.isBrowser()) {
    debug('uncaught(): bubbling exception due to --allow-uncaught');
    throw err;
  }

  if (this.state === constants.STATE_STOPPED) {
    debug('uncaught(): throwing after run has completed!');
    throw err;
  }

  if (err) {
    debug('uncaught(): got truthy exception %O', err);
  } else {
    debug('uncaught(): undefined/falsy exception');
    err = createInvalidExceptionError(
      'Caught falsy/undefined exception which would otherwise be uncaught. No stack trace found; try a debugger',
      err
    );
  }

  if (!isError(err)) {
    err = thrown2Error(err);
    debug('uncaught(): converted "error" %o to Error', err);
  }
  err.uncaught = true;

  var runnable = this.currentRunnable;

  if (!runnable) {
    runnable = new Runnable('Uncaught error outside test suite');
    debug('uncaught(): no current Runnable; created a phony one');
    runnable.parent = this.suite;

    if (this.state === constants.STATE_RUNNING) {
      debug('uncaught(): failing gracefully');
      this.fail(runnable, err);
    } else {
      // Can't recover from this failure
      debug('uncaught(): test run has not yet started; unrecoverable');
      this.emit(constants.EVENT_RUN_BEGIN);
      this.fail(runnable, err);
      this.emit(constants.EVENT_RUN_END);
    }

    return;
  }

  runnable.clearTimeout();

  if (runnable.isFailed()) {
    debug('uncaught(): Runnable has already failed');
    // Ignore error if already failed
    return;
  } else if (runnable.isPending()) {
    debug('uncaught(): pending Runnable wound up failing!');
    // report 'pending test' retrospectively as failed
    this.fail(runnable, err, true);
    return;
  }

  // we cannot recover gracefully if a Runnable has already passed
  // then fails asynchronously
  if (runnable.isPassed()) {
    debug('uncaught(): Runnable has already passed; bailing gracefully');
    this.fail(runnable, err);
    this.abort();
  } else {
    debug('uncaught(): forcing Runnable to complete with Error');
    return runnable.callback(err);
  }
};

/**
 * Run the root suite and invoke `fn(failures)`
 * on completion.
 *
 * @public
 * @memberof Runner
 * @param {Function} fn - Callback when finished
 * @param {Object} [opts] - For subclasses
 * @param {string[]} opts.files - Files to run
 * @param {Options} opts.options - command-line options
 * @returns {Runner} Runner instance.
 */
Runner.prototype.run = function (fn, opts = {}) {
  var rootSuite = this.suite;
  var options = opts.options || {};

  debug('run(): got options: %O', options);
  fn = fn || function () {};

  const end = () => {
    if (!this.total && this._opts.failZero) this.failures = 1;

    debug('run(): root suite completed; emitting %s', constants.EVENT_RUN_END);
    this.emit(constants.EVENT_RUN_END);
  };

  const begin = () => {
    debug('run(): emitting %s', constants.EVENT_RUN_BEGIN);
    this.emit(constants.EVENT_RUN_BEGIN);
    debug('run(): emitted %s', constants.EVENT_RUN_BEGIN);

    this.runSuite(rootSuite, end);
  };

  const prepare = () => {
    debug('run(): starting');
    // If there is an `only` filter
    if (rootSuite.hasOnly()) {
      rootSuite.filterOnly();
      debug('run(): filtered exclusive Runnables');
    }
    this.state = constants.STATE_RUNNING;
    if (this._opts.delay) {
      this.emit(constants.EVENT_DELAY_END);
      debug('run(): "delay" ended');
    }

    return begin();
  };

  // references cleanup to avoid memory leaks
  if (this._opts.cleanReferencesAfterRun) {
    this.on(constants.EVENT_SUITE_END, suite => {
      suite.cleanReferences();
    });
  }

  // callback
  this.on(constants.EVENT_RUN_END, function () {
    this.state = constants.STATE_STOPPED;
    debug('run(): emitted %s', constants.EVENT_RUN_END);
    fn(this.failures);
  });

  this._removeEventListener(process, 'uncaughtException', this.uncaught);
  this._removeEventListener(process, 'unhandledRejection', this.unhandled);
  this._addEventListener(process, 'uncaughtException', this.uncaught);
  this._addEventListener(process, 'unhandledRejection', this.unhandled);

  if (this._opts.delay) {
    // for reporters, I guess.
    // might be nice to debounce some dots while we wait.
    this.emit(constants.EVENT_DELAY_BEGIN, rootSuite);
    rootSuite.once(EVENT_ROOT_SUITE_RUN, prepare);
    debug('run(): waiting for green light due to --delay');
  } else {
    Runner.immediately(prepare);
  }

  return this;
};

/**
 * Toggle partial object linking behavior; used for building object references from
 * unique ID's. Does nothing in serial mode, because the object references already exist.
 * Subclasses can implement this (e.g., `ParallelBufferedRunner`)
 * @abstract
 * @param {boolean} [value] - If `true`, enable partial object linking, otherwise disable
 * @returns {Runner}
 * @chainable
 * @public
 * @example
 * // this reporter needs proper object references when run in parallel mode
 * class MyReporter() {
 *   constructor(runner) {
 *     this.runner.linkPartialObjects(true)
 *       .on(EVENT_SUITE_BEGIN, suite => {
           // this Suite may be the same object...
 *       })
 *       .on(EVENT_TEST_BEGIN, test => {
 *         // ...as the `test.parent` property
 *       });
 *   }
 * }
 */
Runner.prototype.linkPartialObjects = function (value) {
  return this;
};

/*
 * Like {@link Runner#run}, but does not accept a callback and returns a `Promise` instead of a `Runner`.
 * This function cannot reject; an `unhandledRejection` event will bubble up to the `process` object instead.
 * @public
 * @memberof Runner
 * @param {Object} [opts] - Options for {@link Runner#run}
 * @returns {Promise<number>} Failure count
 */
Runner.prototype.runAsync = async function runAsync(opts = {}) {
  return new Promise(resolve => {
    this.run(resolve, opts);
  });
};

/**
 * Cleanly abort execution.
 *
 * @memberof Runner
 * @public
 * @return {Runner} Runner instance.
 */
Runner.prototype.abort = function () {
  debug('abort(): aborting');
  this._abort = true;

  return this;
};

/**
 * Returns `true` if Mocha is running in parallel mode.  For reporters.
 *
 * Subclasses should return an appropriate value.
 * @public
 * @returns {false}
 */
Runner.prototype.isParallelMode = function isParallelMode() {
  return false;
};

/**
 * Configures an alternate reporter for worker processes to use. Subclasses
 * using worker processes should implement this.
 * @public
 * @param {string} path - Absolute path to alternate reporter for worker processes to use
 * @returns {Runner}
 * @throws When in serial mode
 * @chainable
 * @abstract
 */
Runner.prototype.workerReporter = function () {
  throw createUnsupportedError('workerReporter() not supported in serial mode');
};

/**
 * Filter leaks with the given globals flagged as `ok`.
 *
 * @private
 * @param {Array} ok
 * @param {Array} globals
 * @return {Array}
 */
function filterLeaks(ok, globals) {
  return globals.filter(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 = ok.filter(function (ok) {
      if (~ok.indexOf('*')) {
        return key.indexOf(ok.split('*')[0]) === 0;
      }
      return key === ok;
    });
    return !matched.length && (!global.navigator || key !== 'onerror');
  });
}

/**
 * Check if argument is an instance of Error object or a duck-typed equivalent.
 *
 * @private
 * @param {Object} err - object to check
 * @param {string} err.message - error message
 * @returns {boolean}
 */
function isError(err) {
  return err instanceof Error || (err && typeof err.message === 'string');
}

/**
 *
 * Converts thrown non-extensible type into proper Error.
 *
 * @private
 * @param {*} thrown - Non-extensible type thrown by code
 * @return {Error}
 */
function thrown2Error(err) {
  return new Error(
    `the ${utils.canonicalType(err)} ${stringify(
      err
    )} was thrown, throw an Error :)`
  );
}

Runner.constants = constants;

/**
 * Node.js' `EventEmitter`
 * @external EventEmitter
 * @see {@link https://node.org.cn/api/events.html#events_class_eventemitter}
 */

module.exports = Runner;