workbox-v4.3.1/workbox-window.dev.mjs

try {
  self['workbox:window:4.3.1'] && _();
} catch (e) {} // eslint-disable-line

/*
  Copyright 2019 Google LLC

  Use of this source code is governed by an MIT-style
  license that can be found in the LICENSE file or at
  https://opensource.org/licenses/MIT.
*/
/**
 * Sends a data object to a service worker via `postMessage` and resolves with
 * a response (if any).
 *
 * A response can be set in a message handler in the service worker by
 * calling `event.ports[0].postMessage(...)`, which will resolve the promise
 * returned by `messageSW()`. If no response is set, the promise will not
 * resolve.
 *
 * @param {ServiceWorker} sw The service worker to send the message to.
 * @param {Object} data An object to send to the service worker.
 * @return {Promise<Object|undefined>}
 *
 * @memberof module:workbox-window
 */

const messageSW = (sw, data) => {
  return new Promise(resolve => {
    let messageChannel = new MessageChannel();

    messageChannel.port1.onmessage = evt => resolve(evt.data);

    sw.postMessage(data, [messageChannel.port2]);
  });
};

try {
  self['workbox:core:4.3.1'] && _();
} catch (e) {} // eslint-disable-line

/*
  Copyright 2018 Google LLC

  Use of this source code is governed by an MIT-style
  license that can be found in the LICENSE file or at
  https://opensource.org/licenses/MIT.
*/
/**
 * The Deferred class composes Promises in a way that allows for them to be
 * resolved or rejected from outside the constructor. In most cases promises
 * should be used directly, but Deferreds can be necessary when the logic to
 * resolve a promise must be separate.
 *
 * @private
 */

class Deferred {
  /**
   * Creates a promise and exposes its resolve and reject functions as methods.
   */
  constructor() {
    this.promise = new Promise((resolve, reject) => {
      this.resolve = resolve;
      this.reject = reject;
    });
  }

}

/*
  Copyright 2019 Google LLC
  Use of this source code is governed by an MIT-style
  license that can be found in the LICENSE file or at
  https://opensource.org/licenses/MIT.
*/
const logger = (() => {
  let inGroup = false;
  const methodToColorMap = {
    debug: `#7f8c8d`,
    // Gray
    log: `#2ecc71`,
    // Green
    warn: `#f39c12`,
    // Yellow
    error: `#c0392b`,
    // Red
    groupCollapsed: `#3498db`,
    // Blue
    groupEnd: null // No colored prefix on groupEnd

  };

  const print = function (method, args) {
    if (method === 'groupCollapsed') {
      // Safari doesn't print all console.groupCollapsed() arguments:
      // https://bugs.webkit.org/show_bug.cgi?id=182754
      if (/^((?!chrome|android).)*safari/i.test(navigator.userAgent)) {
        console[method](...args);
        return;
      }
    }

    const styles = [`background: ${methodToColorMap[method]}`, `border-radius: 0.5em`, `color: white`, `font-weight: bold`, `padding: 2px 0.5em`]; // When in a group, the workbox prefix is not displayed.

    const logPrefix = inGroup ? [] : ['%cworkbox', styles.join(';')];
    console[method](...logPrefix, ...args);

    if (method === 'groupCollapsed') {
      inGroup = true;
    }

    if (method === 'groupEnd') {
      inGroup = false;
    }
  };

  const api = {};

  for (const method of Object.keys(methodToColorMap)) {
    api[method] = (...args) => {
      print(method, args);
    };
  }

  return api;
})();

/*
  Copyright 2019 Google LLC

  Use of this source code is governed by an MIT-style
  license that can be found in the LICENSE file or at
  https://opensource.org/licenses/MIT.
*/
/**
 * A minimal `EventTarget` shim.
 * This is necessary because not all browsers support constructable
 * `EventTarget`, so using a real `EventTarget` will error.
 * @private
 */

class EventTargetShim {
  /**
   * Creates an event listener registry
   *
   * @private
   */
  constructor() {
    // A registry of event types to listeners.
    this._eventListenerRegistry = {};
  }
  /**
   * @param {string} type
   * @param {Function} listener
   * @private
   */


  addEventListener(type, listener) {
    this._getEventListenersByType(type).add(listener);
  }
  /**
   * @param {string} type
   * @param {Function} listener
   * @private
   */


  removeEventListener(type, listener) {
    this._getEventListenersByType(type).delete(listener);
  }
  /**
   * @param {Event} event
   * @private
   */


  dispatchEvent(event) {
    event.target = this;

    this._getEventListenersByType(event.type).forEach(listener => listener(event));
  }
  /**
   * Returns a Set of listeners associated with the passed event type.
   * If no handlers have been registered, an empty Set is returned.
   *
   * @param {string} type The event type.
   * @return {Set} An array of handler functions.
   * @private
   */


  _getEventListenersByType(type) {
    return this._eventListenerRegistry[type] = this._eventListenerRegistry[type] || new Set();
  }

}

/*
  Copyright 2019 Google LLC

  Use of this source code is governed by an MIT-style
  license that can be found in the LICENSE file or at
  https://opensource.org/licenses/MIT.
*/
/**
 * Returns true if two URLs have the same `.href` property. The URLS can be
 * relative, and if they are the current location href is used to resolve URLs.
 *
 * @private
 * @param {string} url1
 * @param {string} url2
 * @return {boolean}
 */

const urlsMatch = (url1, url2) => {
  return new URL(url1, location).href === new URL(url2, location).href;
};

/*
  Copyright 2019 Google LLC

  Use of this source code is governed by an MIT-style
  license that can be found in the LICENSE file or at
  https://opensource.org/licenses/MIT.
*/
/**
 * A minimal `Event` subclass shim.
 * This doesn't *actually* subclass `Event` because not all browsers support
 * constructable `EventTarget`, and using a real `Event` will error.
 * @private
 */

class WorkboxEvent {
  /**
   * @param {string} type
   * @param {Object} props
   */
  constructor(type, props) {
    Object.assign(this, props, {
      type
    });
  }

}

/*
  Copyright 2019 Google LLC

  Use of this source code is governed by an MIT-style
  license that can be found in the LICENSE file or at
  https://opensource.org/licenses/MIT.
*/
// `skipWaiting()` wasn't called. This 200 amount wasn't scientifically
// chosen, but it seems to avoid false positives in my testing.

const WAITING_TIMEOUT_DURATION = 200; // The amount of time after a registration that we can reasonably conclude
// that the registration didn't trigger an update.

const REGISTRATION_TIMEOUT_DURATION = 60000;
/**
 * A class to aid in handling service worker registration, updates, and
 * reacting to service worker lifecycle events.
 *
 * @fires [message]{@link module:workbox-window.Workbox#message}
 * @fires [installed]{@link module:workbox-window.Workbox#installed}
 * @fires [waiting]{@link module:workbox-window.Workbox#waiting}
 * @fires [controlling]{@link module:workbox-window.Workbox#controlling}
 * @fires [activated]{@link module:workbox-window.Workbox#activated}
 * @fires [redundant]{@link module:workbox-window.Workbox#redundant}
 * @fires [externalinstalled]{@link module:workbox-window.Workbox#externalinstalled}
 * @fires [externalwaiting]{@link module:workbox-window.Workbox#externalwaiting}
 * @fires [externalactivated]{@link module:workbox-window.Workbox#externalactivated}
 *
 * @memberof module:workbox-window
 */

class Workbox extends EventTargetShim {
  /**
   * Creates a new Workbox instance with a script URL and service worker
   * options. The script URL and options are the same as those used when
   * calling `navigator.serviceWorker.register(scriptURL, options)`. See:
   * https://developer.mozilla.org/en-US/docs/Web/API/ServiceWorkerContainer/register
   *
   * @param {string} scriptURL The service worker script associated with this
   *     instance.
   * @param {Object} [registerOptions] The service worker options associated
   *     with this instance.
   */
  constructor(scriptURL, registerOptions = {}) {
    super();
    this._scriptURL = scriptURL;
    this._registerOptions = registerOptions;
    this._updateFoundCount = 0; // Deferreds we can resolve later.

    this._swDeferred = new Deferred();
    this._activeDeferred = new Deferred();
    this._controllingDeferred = new Deferred(); // Bind event handler callbacks.

    this._onMessage = this._onMessage.bind(this);
    this._onStateChange = this._onStateChange.bind(this);
    this._onUpdateFound = this._onUpdateFound.bind(this);
    this._onControllerChange = this._onControllerChange.bind(this);
  }
  /**
   * Registers a service worker for this instances script URL and service
   * worker options. By default this method delays registration until after
   * the window has loaded.
   *
   * @param {Object} [options]
   * @param {Function} [options.immediate=false] Setting this to true will
   *     register the service worker immediately, even if the window has
   *     not loaded (not recommended).
   */


  async register({
    immediate = false
  } = {}) {
    {
      if (this._registrationTime) {
        logger.error('Cannot re-register a Workbox instance after it has ' + 'been registered. Create a new instance instead.');
        return;
      }
    }

    if (!immediate && document.readyState !== 'complete') {
      await new Promise(res => addEventListener('load', res));
    } // Set this flag to true if any service worker was controlling the page
    // at registration time.


    this._isUpdate = Boolean(navigator.serviceWorker.controller); // Before registering, attempt to determine if a SW is already controlling
    // the page, and if that SW script (and version, if specified) matches this
    // instance's script.

    this._compatibleControllingSW = this._getControllingSWIfCompatible();
    this._registration = await this._registerScript(); // If we have a compatible controller, store the controller as the "own"
    // SW, resolve active/controlling deferreds and add necessary listeners.

    if (this._compatibleControllingSW) {
      this._sw = this._compatibleControllingSW;

      this._activeDeferred.resolve(this._compatibleControllingSW);

      this._controllingDeferred.resolve(this._compatibleControllingSW);

      this._reportWindowReady(this._compatibleControllingSW);

      this._compatibleControllingSW.addEventListener('statechange', this._onStateChange, {
        once: true
      });
    } // If there's a waiting service worker with a matching URL before the
    // `updatefound` event fires, it likely means that this site is open
    // in another tab, or the user refreshed the page (and thus the prevoius
    // page wasn't fully unloaded before this page started loading).
    // https://developers.google.com/web/fundamentals/primers/service-workers/lifecycle#waiting


    const waitingSW = this._registration.waiting;

    if (waitingSW && urlsMatch(waitingSW.scriptURL, this._scriptURL)) {
      // Store the waiting SW as the "own" Sw, even if it means overwriting
      // a compatible controller.
      this._sw = waitingSW; // Run this in the next microtask, so any code that adds an event
      // listener after awaiting `register()` will get this event.

      Promise.resolve().then(() => {
        this.dispatchEvent(new WorkboxEvent('waiting', {
          sw: waitingSW,
          wasWaitingBeforeRegister: true
        }));

        {
          logger.warn('A service worker was already waiting to activate ' + 'before this script was registered...');
        }
      });
    } // If an "own" SW is already set, resolve the deferred.


    if (this._sw) {
      this._swDeferred.resolve(this._sw);
    }

    {
      logger.log('Successfully registered service worker.', this._scriptURL);

      if (navigator.serviceWorker.controller) {
        if (this._compatibleControllingSW) {
          logger.debug('A service worker with the same script URL ' + 'is already controlling this page.');
        } else {
          logger.debug('A service worker with a different script URL is ' + 'currently controlling the page. The browser is now fetching ' + 'the new script now...');
        }
      }

      const currentPageIsOutOfScope = () => {
        const scopeURL = new URL(this._registerOptions.scope || this._scriptURL, document.baseURI);
        const scopeURLBasePath = new URL('./', scopeURL.href).pathname;
        return !location.pathname.startsWith(scopeURLBasePath);
      };

      if (currentPageIsOutOfScope()) {
        logger.warn('The current page is not in scope for the registered ' + 'service worker. Was this a mistake?');
      }
    }

    this._registration.addEventListener('updatefound', this._onUpdateFound);

    navigator.serviceWorker.addEventListener('controllerchange', this._onControllerChange, {
      once: true
    }); // Add message listeners.

    if ('BroadcastChannel' in self) {
      this._broadcastChannel = new BroadcastChannel('workbox');

      this._broadcastChannel.addEventListener('message', this._onMessage);
    }

    navigator.serviceWorker.addEventListener('message', this._onMessage);
    return this._registration;
  }
  /**
   * Resolves to the service worker registered by this instance as soon as it
   * is active. If a service worker was already controlling at registration
   * time then it will resolve to that if the script URLs (and optionally
   * script versions) match, otherwise it will wait until an update is found
   * and activates.
   *
   * @return {Promise<ServiceWorker>}
   */


  get active() {
    return this._activeDeferred.promise;
  }
  /**
   * Resolves to the service worker registered by this instance as soon as it
   * is controlling the page. If a service worker was already controlling at
   * registration time then it will resolve to that if the script URLs (and
   * optionally script versions) match, otherwise it will wait until an update
   * is found and starts controlling the page.
   * Note: the first time a service worker is installed it will active but
   * not start controlling the page unless `clients.claim()` is called in the
   * service worker.
   *
   * @return {Promise<ServiceWorker>}
   */


  get controlling() {
    return this._controllingDeferred.promise;
  }
  /**
   * Resolves with a reference to a service worker that matches the script URL
   * of this instance, as soon as it's available.
   *
   * If, at registration time, there's already an active or waiting service
   * worker with a matching script URL, it will be used (with the waiting
   * service worker taking precedence over the active service worker if both
   * match, since the waiting service worker would have been registered more
   * recently).
   * If there's no matching active or waiting service worker at registration
   * time then the promise will not resolve until an update is found and starts
   * installing, at which point the installing service worker is used.
   *
   * @return {Promise<ServiceWorker>}
   */


  async getSW() {
    // If `this._sw` is set, resolve with that as we want `getSW()` to
    // return the correct (new) service worker if an update is found.
    return this._sw || this._swDeferred.promise;
  }
  /**
   * Sends the passed data object to the service worker registered by this
   * instance (via [`getSW()`]{@link module:workbox-window.Workbox#getSW}) and resolves
   * with a response (if any).
   *
   * A response can be set in a message handler in the service worker by
   * calling `event.ports[0].postMessage(...)`, which will resolve the promise
   * returned by `messageSW()`. If no response is set, the promise will never
   * resolve.
   *
   * @param {Object} data An object to send to the service worker
   * @return {Promise<Object>}
   */


  async messageSW(data) {
    const sw = await this.getSW();
    return messageSW(sw, data);
  }
  /**
   * Checks for a service worker already controlling the page and returns
   * it if its script URL matchs.
   *
   * @private
   * @return {ServiceWorker|undefined}
   */


  _getControllingSWIfCompatible() {
    const controller = navigator.serviceWorker.controller;

    if (controller && urlsMatch(controller.scriptURL, this._scriptURL)) {
      return controller;
    }
  }
  /**
   * Registers a service worker for this instances script URL and register
   * options and tracks the time registration was complete.
   *
   * @private
   */


  async _registerScript() {
    try {
      const reg = await navigator.serviceWorker.register(this._scriptURL, this._registerOptions); // Keep track of when registration happened, so it can be used in the
      // `this._onUpdateFound` heuristic. Also use the presence of this
      // property as a way to see if `.register()` has been called.

      this._registrationTime = performance.now();
      return reg;
    } catch (error) {
      {
        logger.error(error);
      } // Re-throw the error.


      throw error;
    }
  }
  /**
   * Sends a message to the passed service worker that the window is ready.
   *
   * @param {ServiceWorker} sw
   * @private
   */


  _reportWindowReady(sw) {
    messageSW(sw, {
      type: 'WINDOW_READY',
      meta: 'workbox-window'
    });
  }
  /**
   * @private
   */


  _onUpdateFound() {
    const installingSW = this._registration.installing; // If the script URL passed to `navigator.serviceWorker.register()` is
    // different from the current controlling SW's script URL, we know any
    // successful registration calls will trigger an `updatefound` event.
    // But if the registered script URL is the same as the current controlling
    // SW's script URL, we'll only get an `updatefound` event if the file
    // changed since it was last registered. This can be a problem if the user
    // opens up the same page in a different tab, and that page registers
    // a SW that triggers an update. It's a problem because this page has no
    // good way of knowing whether the `updatefound` event came from the SW
    // script it registered or from a registration attempt made by a newer
    // version of the page running in another tab.
    // To minimize the possibility of a false positive, we use the logic here:

    let updateLikelyTriggeredExternally = // Since we enforce only calling `register()` once, and since we don't
    // add the `updatefound` event listener until the `register()` call, if
    // `_updateFoundCount` is > 0 then it means this method has already
    // been called, thus this SW must be external
    this._updateFoundCount > 0 || // If the script URL of the installing SW is different from this
    // instance's script URL, we know it's definitely not from our
    // registration.
    !urlsMatch(installingSW.scriptURL, this._scriptURL) || // If all of the above are false, then we use a time-based heuristic:
    // Any `updatefound` event that occurs long after our registration is
    // assumed to be external.
    performance.now() > this._registrationTime + REGISTRATION_TIMEOUT_DURATION ? // If any of the above are not true, we assume the update was
    // triggered by this instance.
    true : false;

    if (updateLikelyTriggeredExternally) {
      this._externalSW = installingSW;

      this._registration.removeEventListener('updatefound', this._onUpdateFound);
    } else {
      // If the update was not triggered externally we know the installing
      // SW is the one we registered, so we set it.
      this._sw = installingSW;

      this._swDeferred.resolve(installingSW); // The `installing` state isn't something we have a dedicated
      // callback for, but we do log messages for it in development.


      {
        if (navigator.serviceWorker.controller) {
          logger.log('Updated service worker found. Installing now...');
        } else {
          logger.log('Service worker is installing...');
        }
      }
    } // Increment the `updatefound` count, so future invocations of this
    // method can be sure they were triggered externally.


    ++this._updateFoundCount; // Add a `statechange` listener regardless of whether this update was
    // triggered externally, since we have callbacks for both.

    installingSW.addEventListener('statechange', this._onStateChange);
  }
  /**
   * @private
   * @param {Event} originalEvent
   */


  _onStateChange(originalEvent) {
    const sw = originalEvent.target;
    const {
      state
    } = sw;
    const isExternal = sw === this._externalSW;
    const eventPrefix = isExternal ? 'external' : '';
    const eventProps = {
      sw,
      originalEvent
    };

    if (!isExternal && this._isUpdate) {
      eventProps.isUpdate = true;
    }

    this.dispatchEvent(new WorkboxEvent(eventPrefix + state, eventProps));

    if (state === 'installed') {
      // This timeout is used to ignore cases where the service worker calls
      // `skipWaiting()` in the install event, thus moving it directly in the
      // activating state. (Since all service workers *must* go through the
      // waiting phase, the only way to detect `skipWaiting()` called in the
      // install event is to observe that the time spent in the waiting phase
      // is very short.)
      // NOTE: we don't need separate timeouts for the own and external SWs
      // since they can't go through these phases at the same time.
      this._waitingTimeout = setTimeout(() => {
        // Ensure the SW is still waiting (it may now be redundant).
        if (state === 'installed' && this._registration.waiting === sw) {
          this.dispatchEvent(new WorkboxEvent(eventPrefix + 'waiting', eventProps));

          {
            if (isExternal) {
              logger.warn('An external service worker has installed but is ' + 'waiting for this client to close before activating...');
            } else {
              logger.warn('The service worker has installed but is waiting ' + 'for existing clients to close before activating...');
            }
          }
        }
      }, WAITING_TIMEOUT_DURATION);
    } else if (state === 'activating') {
      clearTimeout(this._waitingTimeout);

      if (!isExternal) {
        this._activeDeferred.resolve(sw);
      }
    }

    {
      switch (state) {
        case 'installed':
          if (isExternal) {
            logger.warn('An external service worker has installed. ' + 'You may want to suggest users reload this page.');
          } else {
            logger.log('Registered service worker installed.');
          }

          break;

        case 'activated':
          if (isExternal) {
            logger.warn('An external service worker has activated.');
          } else {
            logger.log('Registered service worker activated.');

            if (sw !== navigator.serviceWorker.controller) {
              logger.warn('The registered service worker is active but ' + 'not yet controlling the page. Reload or run ' + '`clients.claim()` in the service worker.');
            }
          }

          break;

        case 'redundant':
          if (sw === this._compatibleControllingSW) {
            logger.log('Previously controlling service worker now redundant!');
          } else if (!isExternal) {
            logger.log('Registered service worker now redundant!');
          }

          break;
      }
    }
  }
  /**
   * @private
   * @param {Event} originalEvent
   */


  _onControllerChange(originalEvent) {
    const sw = this._sw;

    if (sw === navigator.serviceWorker.controller) {
      this.dispatchEvent(new WorkboxEvent('controlling', {
        sw,
        originalEvent
      }));

      {
        logger.log('Registered service worker now controlling this page.');
      }

      this._controllingDeferred.resolve(sw);
    }
  }
  /**
   * @private
   * @param {Event} originalEvent
   */


  _onMessage(originalEvent) {
    const {
      data
    } = originalEvent;
    this.dispatchEvent(new WorkboxEvent('message', {
      data,
      originalEvent
    }));
  }

} // The jsdoc comments below outline the events this instance may dispatch:

/*
  Copyright 2019 Google LLC

  Use of this source code is governed by an MIT-style
  license that can be found in the LICENSE file or at
  https://opensource.org/licenses/MIT.
*/

export { Workbox, messageSW };
//# sourceMappingURL=workbox-window.dev.mjs.map