hexo/node_modules/workbox-expiration/build/workbox-expiration.dev.js

973 lines
33 KiB
JavaScript

this.workbox = this.workbox || {};
this.workbox.expiration = (function (exports, assert_js, dontWaitFor_js, logger_js, WorkboxError_js, cacheNames_js, getFriendlyURL_js, registerQuotaErrorCallback_js) {
'use strict';
function _extends() {
_extends = Object.assign || function (target) {
for (var i = 1; i < arguments.length; i++) {
var source = arguments[i];
for (var key in source) {
if (Object.prototype.hasOwnProperty.call(source, key)) {
target[key] = source[key];
}
}
}
return target;
};
return _extends.apply(this, arguments);
}
const instanceOfAny = (object, constructors) => constructors.some(c => object instanceof c);
let idbProxyableTypes;
let cursorAdvanceMethods; // This is a function to prevent it throwing up in node environments.
function getIdbProxyableTypes() {
return idbProxyableTypes || (idbProxyableTypes = [IDBDatabase, IDBObjectStore, IDBIndex, IDBCursor, IDBTransaction]);
} // This is a function to prevent it throwing up in node environments.
function getCursorAdvanceMethods() {
return cursorAdvanceMethods || (cursorAdvanceMethods = [IDBCursor.prototype.advance, IDBCursor.prototype.continue, IDBCursor.prototype.continuePrimaryKey]);
}
const cursorRequestMap = new WeakMap();
const transactionDoneMap = new WeakMap();
const transactionStoreNamesMap = new WeakMap();
const transformCache = new WeakMap();
const reverseTransformCache = new WeakMap();
function promisifyRequest(request) {
const promise = new Promise((resolve, reject) => {
const unlisten = () => {
request.removeEventListener('success', success);
request.removeEventListener('error', error);
};
const success = () => {
resolve(wrap(request.result));
unlisten();
};
const error = () => {
reject(request.error);
unlisten();
};
request.addEventListener('success', success);
request.addEventListener('error', error);
});
promise.then(value => {
// Since cursoring reuses the IDBRequest (*sigh*), we cache it for later retrieval
// (see wrapFunction).
if (value instanceof IDBCursor) {
cursorRequestMap.set(value, request);
} // Catching to avoid "Uncaught Promise exceptions"
}).catch(() => {}); // This mapping exists in reverseTransformCache but doesn't doesn't exist in transformCache. This
// is because we create many promises from a single IDBRequest.
reverseTransformCache.set(promise, request);
return promise;
}
function cacheDonePromiseForTransaction(tx) {
// Early bail if we've already created a done promise for this transaction.
if (transactionDoneMap.has(tx)) return;
const done = new Promise((resolve, reject) => {
const unlisten = () => {
tx.removeEventListener('complete', complete);
tx.removeEventListener('error', error);
tx.removeEventListener('abort', error);
};
const complete = () => {
resolve();
unlisten();
};
const error = () => {
reject(tx.error || new DOMException('AbortError', 'AbortError'));
unlisten();
};
tx.addEventListener('complete', complete);
tx.addEventListener('error', error);
tx.addEventListener('abort', error);
}); // Cache it for later retrieval.
transactionDoneMap.set(tx, done);
}
let idbProxyTraps = {
get(target, prop, receiver) {
if (target instanceof IDBTransaction) {
// Special handling for transaction.done.
if (prop === 'done') return transactionDoneMap.get(target); // Polyfill for objectStoreNames because of Edge.
if (prop === 'objectStoreNames') {
return target.objectStoreNames || transactionStoreNamesMap.get(target);
} // Make tx.store return the only store in the transaction, or undefined if there are many.
if (prop === 'store') {
return receiver.objectStoreNames[1] ? undefined : receiver.objectStore(receiver.objectStoreNames[0]);
}
} // Else transform whatever we get back.
return wrap(target[prop]);
},
set(target, prop, value) {
target[prop] = value;
return true;
},
has(target, prop) {
if (target instanceof IDBTransaction && (prop === 'done' || prop === 'store')) {
return true;
}
return prop in target;
}
};
function replaceTraps(callback) {
idbProxyTraps = callback(idbProxyTraps);
}
function wrapFunction(func) {
// Due to expected object equality (which is enforced by the caching in `wrap`), we
// only create one new func per func.
// Edge doesn't support objectStoreNames (booo), so we polyfill it here.
if (func === IDBDatabase.prototype.transaction && !('objectStoreNames' in IDBTransaction.prototype)) {
return function (storeNames, ...args) {
const tx = func.call(unwrap(this), storeNames, ...args);
transactionStoreNamesMap.set(tx, storeNames.sort ? storeNames.sort() : [storeNames]);
return wrap(tx);
};
} // Cursor methods are special, as the behaviour is a little more different to standard IDB. In
// IDB, you advance the cursor and wait for a new 'success' on the IDBRequest that gave you the
// cursor. It's kinda like a promise that can resolve with many values. That doesn't make sense
// with real promises, so each advance methods returns a new promise for the cursor object, or
// undefined if the end of the cursor has been reached.
if (getCursorAdvanceMethods().includes(func)) {
return function (...args) {
// Calling the original function with the proxy as 'this' causes ILLEGAL INVOCATION, so we use
// the original object.
func.apply(unwrap(this), args);
return wrap(cursorRequestMap.get(this));
};
}
return function (...args) {
// Calling the original function with the proxy as 'this' causes ILLEGAL INVOCATION, so we use
// the original object.
return wrap(func.apply(unwrap(this), args));
};
}
function transformCachableValue(value) {
if (typeof value === 'function') return wrapFunction(value); // This doesn't return, it just creates a 'done' promise for the transaction,
// which is later returned for transaction.done (see idbObjectHandler).
if (value instanceof IDBTransaction) cacheDonePromiseForTransaction(value);
if (instanceOfAny(value, getIdbProxyableTypes())) return new Proxy(value, idbProxyTraps); // Return the same value back if we're not going to transform it.
return value;
}
function wrap(value) {
// We sometimes generate multiple promises from a single IDBRequest (eg when cursoring), because
// IDB is weird and a single IDBRequest can yield many responses, so these can't be cached.
if (value instanceof IDBRequest) return promisifyRequest(value); // If we've already transformed this value before, reuse the transformed value.
// This is faster, but it also provides object equality.
if (transformCache.has(value)) return transformCache.get(value);
const newValue = transformCachableValue(value); // Not all types are transformed.
// These may be primitive types, so they can't be WeakMap keys.
if (newValue !== value) {
transformCache.set(value, newValue);
reverseTransformCache.set(newValue, value);
}
return newValue;
}
const unwrap = value => reverseTransformCache.get(value);
/**
* Open a database.
*
* @param name Name of the database.
* @param version Schema version.
* @param callbacks Additional callbacks.
*/
function openDB(name, version, {
blocked,
upgrade,
blocking,
terminated
} = {}) {
const request = indexedDB.open(name, version);
const openPromise = wrap(request);
if (upgrade) {
request.addEventListener('upgradeneeded', event => {
upgrade(wrap(request.result), event.oldVersion, event.newVersion, wrap(request.transaction));
});
}
if (blocked) request.addEventListener('blocked', () => blocked());
openPromise.then(db => {
if (terminated) db.addEventListener('close', () => terminated());
if (blocking) db.addEventListener('versionchange', () => blocking());
}).catch(() => {});
return openPromise;
}
/**
* Delete a database.
*
* @param name Name of the database.
*/
function deleteDB(name, {
blocked
} = {}) {
const request = indexedDB.deleteDatabase(name);
if (blocked) request.addEventListener('blocked', () => blocked());
return wrap(request).then(() => undefined);
}
const readMethods = ['get', 'getKey', 'getAll', 'getAllKeys', 'count'];
const writeMethods = ['put', 'add', 'delete', 'clear'];
const cachedMethods = new Map();
function getMethod(target, prop) {
if (!(target instanceof IDBDatabase && !(prop in target) && typeof prop === 'string')) {
return;
}
if (cachedMethods.get(prop)) return cachedMethods.get(prop);
const targetFuncName = prop.replace(/FromIndex$/, '');
const useIndex = prop !== targetFuncName;
const isWrite = writeMethods.includes(targetFuncName);
if ( // Bail if the target doesn't exist on the target. Eg, getAll isn't in Edge.
!(targetFuncName in (useIndex ? IDBIndex : IDBObjectStore).prototype) || !(isWrite || readMethods.includes(targetFuncName))) {
return;
}
const method = async function (storeName, ...args) {
// isWrite ? 'readwrite' : undefined gzipps better, but fails in Edge :(
const tx = this.transaction(storeName, isWrite ? 'readwrite' : 'readonly');
let target = tx.store;
if (useIndex) target = target.index(args.shift()); // Must reject if op rejects.
// If it's a write operation, must reject if tx.done rejects.
// Must reject with op rejection first.
// Must resolve with op value.
// Must handle both promises (no unhandled rejections)
return (await Promise.all([target[targetFuncName](...args), isWrite && tx.done]))[0];
};
cachedMethods.set(prop, method);
return method;
}
replaceTraps(oldTraps => _extends({}, oldTraps, {
get: (target, prop, receiver) => getMethod(target, prop) || oldTraps.get(target, prop, receiver),
has: (target, prop) => !!getMethod(target, prop) || oldTraps.has(target, prop)
}));
try {
self['workbox:expiration:6.5.3'] && _();
} catch (e) {}
/*
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.
*/
const DB_NAME = 'workbox-expiration';
const CACHE_OBJECT_STORE = 'cache-entries';
const normalizeURL = unNormalizedUrl => {
const url = new URL(unNormalizedUrl, location.href);
url.hash = '';
return url.href;
};
/**
* Returns the timestamp model.
*
* @private
*/
class CacheTimestampsModel {
/**
*
* @param {string} cacheName
*
* @private
*/
constructor(cacheName) {
this._db = null;
this._cacheName = cacheName;
}
/**
* Performs an upgrade of indexedDB.
*
* @param {IDBPDatabase<CacheDbSchema>} db
*
* @private
*/
_upgradeDb(db) {
// TODO(philipwalton): EdgeHTML doesn't support arrays as a keyPath, so we
// have to use the `id` keyPath here and create our own values (a
// concatenation of `url + cacheName`) instead of simply using
// `keyPath: ['url', 'cacheName']`, which is supported in other browsers.
const objStore = db.createObjectStore(CACHE_OBJECT_STORE, {
keyPath: 'id'
}); // TODO(philipwalton): once we don't have to support EdgeHTML, we can
// create a single index with the keyPath `['cacheName', 'timestamp']`
// instead of doing both these indexes.
objStore.createIndex('cacheName', 'cacheName', {
unique: false
});
objStore.createIndex('timestamp', 'timestamp', {
unique: false
});
}
/**
* Performs an upgrade of indexedDB and deletes deprecated DBs.
*
* @param {IDBPDatabase<CacheDbSchema>} db
*
* @private
*/
_upgradeDbAndDeleteOldDbs(db) {
this._upgradeDb(db);
if (this._cacheName) {
void deleteDB(this._cacheName);
}
}
/**
* @param {string} url
* @param {number} timestamp
*
* @private
*/
async setTimestamp(url, timestamp) {
url = normalizeURL(url);
const entry = {
url,
timestamp,
cacheName: this._cacheName,
// Creating an ID from the URL and cache name won't be necessary once
// Edge switches to Chromium and all browsers we support work with
// array keyPaths.
id: this._getId(url)
};
const db = await this.getDb();
const tx = db.transaction(CACHE_OBJECT_STORE, 'readwrite', {
durability: 'relaxed'
});
await tx.store.put(entry);
await tx.done;
}
/**
* Returns the timestamp stored for a given URL.
*
* @param {string} url
* @return {number | undefined}
*
* @private
*/
async getTimestamp(url) {
const db = await this.getDb();
const entry = await db.get(CACHE_OBJECT_STORE, this._getId(url));
return entry === null || entry === void 0 ? void 0 : entry.timestamp;
}
/**
* Iterates through all the entries in the object store (from newest to
* oldest) and removes entries once either `maxCount` is reached or the
* entry's timestamp is less than `minTimestamp`.
*
* @param {number} minTimestamp
* @param {number} maxCount
* @return {Array<string>}
*
* @private
*/
async expireEntries(minTimestamp, maxCount) {
const db = await this.getDb();
let cursor = await db.transaction(CACHE_OBJECT_STORE).store.index('timestamp').openCursor(null, 'prev');
const entriesToDelete = [];
let entriesNotDeletedCount = 0;
while (cursor) {
const result = cursor.value; // TODO(philipwalton): once we can use a multi-key index, we
// won't have to check `cacheName` here.
if (result.cacheName === this._cacheName) {
// Delete an entry if it's older than the max age or
// if we already have the max number allowed.
if (minTimestamp && result.timestamp < minTimestamp || maxCount && entriesNotDeletedCount >= maxCount) {
// TODO(philipwalton): we should be able to delete the
// entry right here, but doing so causes an iteration
// bug in Safari stable (fixed in TP). Instead we can
// store the keys of the entries to delete, and then
// delete the separate transactions.
// https://github.com/GoogleChrome/workbox/issues/1978
// cursor.delete();
// We only need to return the URL, not the whole entry.
entriesToDelete.push(cursor.value);
} else {
entriesNotDeletedCount++;
}
}
cursor = await cursor.continue();
} // TODO(philipwalton): once the Safari bug in the following issue is fixed,
// we should be able to remove this loop and do the entry deletion in the
// cursor loop above:
// https://github.com/GoogleChrome/workbox/issues/1978
const urlsDeleted = [];
for (const entry of entriesToDelete) {
await db.delete(CACHE_OBJECT_STORE, entry.id);
urlsDeleted.push(entry.url);
}
return urlsDeleted;
}
/**
* Takes a URL and returns an ID that will be unique in the object store.
*
* @param {string} url
* @return {string}
*
* @private
*/
_getId(url) {
// Creating an ID from the URL and cache name won't be necessary once
// Edge switches to Chromium and all browsers we support work with
// array keyPaths.
return this._cacheName + '|' + normalizeURL(url);
}
/**
* Returns an open connection to the database.
*
* @private
*/
async getDb() {
if (!this._db) {
this._db = await openDB(DB_NAME, 1, {
upgrade: this._upgradeDbAndDeleteOldDbs.bind(this)
});
}
return this._db;
}
}
/*
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 `CacheExpiration` class allows you define an expiration and / or
* limit on the number of responses stored in a
* [`Cache`](https://developer.mozilla.org/en-US/docs/Web/API/Cache).
*
* @memberof workbox-expiration
*/
class CacheExpiration {
/**
* To construct a new CacheExpiration instance you must provide at least
* one of the `config` properties.
*
* @param {string} cacheName Name of the cache to apply restrictions to.
* @param {Object} config
* @param {number} [config.maxEntries] The maximum number of entries to cache.
* Entries used the least will be removed as the maximum is reached.
* @param {number} [config.maxAgeSeconds] The maximum age of an entry before
* it's treated as stale and removed.
* @param {Object} [config.matchOptions] The [`CacheQueryOptions`](https://developer.mozilla.org/en-US/docs/Web/API/Cache/delete#Parameters)
* that will be used when calling `delete()` on the cache.
*/
constructor(cacheName, config = {}) {
this._isRunning = false;
this._rerunRequested = false;
{
assert_js.assert.isType(cacheName, 'string', {
moduleName: 'workbox-expiration',
className: 'CacheExpiration',
funcName: 'constructor',
paramName: 'cacheName'
});
if (!(config.maxEntries || config.maxAgeSeconds)) {
throw new WorkboxError_js.WorkboxError('max-entries-or-age-required', {
moduleName: 'workbox-expiration',
className: 'CacheExpiration',
funcName: 'constructor'
});
}
if (config.maxEntries) {
assert_js.assert.isType(config.maxEntries, 'number', {
moduleName: 'workbox-expiration',
className: 'CacheExpiration',
funcName: 'constructor',
paramName: 'config.maxEntries'
});
}
if (config.maxAgeSeconds) {
assert_js.assert.isType(config.maxAgeSeconds, 'number', {
moduleName: 'workbox-expiration',
className: 'CacheExpiration',
funcName: 'constructor',
paramName: 'config.maxAgeSeconds'
});
}
}
this._maxEntries = config.maxEntries;
this._maxAgeSeconds = config.maxAgeSeconds;
this._matchOptions = config.matchOptions;
this._cacheName = cacheName;
this._timestampModel = new CacheTimestampsModel(cacheName);
}
/**
* Expires entries for the given cache and given criteria.
*/
async expireEntries() {
if (this._isRunning) {
this._rerunRequested = true;
return;
}
this._isRunning = true;
const minTimestamp = this._maxAgeSeconds ? Date.now() - this._maxAgeSeconds * 1000 : 0;
const urlsExpired = await this._timestampModel.expireEntries(minTimestamp, this._maxEntries); // Delete URLs from the cache
const cache = await self.caches.open(this._cacheName);
for (const url of urlsExpired) {
await cache.delete(url, this._matchOptions);
}
{
if (urlsExpired.length > 0) {
logger_js.logger.groupCollapsed(`Expired ${urlsExpired.length} ` + `${urlsExpired.length === 1 ? 'entry' : 'entries'} and removed ` + `${urlsExpired.length === 1 ? 'it' : 'them'} from the ` + `'${this._cacheName}' cache.`);
logger_js.logger.log(`Expired the following ${urlsExpired.length === 1 ? 'URL' : 'URLs'}:`);
urlsExpired.forEach(url => logger_js.logger.log(` ${url}`));
logger_js.logger.groupEnd();
} else {
logger_js.logger.debug(`Cache expiration ran and found no entries to remove.`);
}
}
this._isRunning = false;
if (this._rerunRequested) {
this._rerunRequested = false;
dontWaitFor_js.dontWaitFor(this.expireEntries());
}
}
/**
* Update the timestamp for the given URL. This ensures the when
* removing entries based on maximum entries, most recently used
* is accurate or when expiring, the timestamp is up-to-date.
*
* @param {string} url
*/
async updateTimestamp(url) {
{
assert_js.assert.isType(url, 'string', {
moduleName: 'workbox-expiration',
className: 'CacheExpiration',
funcName: 'updateTimestamp',
paramName: 'url'
});
}
await this._timestampModel.setTimestamp(url, Date.now());
}
/**
* Can be used to check if a URL has expired or not before it's used.
*
* This requires a look up from IndexedDB, so can be slow.
*
* Note: This method will not remove the cached entry, call
* `expireEntries()` to remove indexedDB and Cache entries.
*
* @param {string} url
* @return {boolean}
*/
async isURLExpired(url) {
if (!this._maxAgeSeconds) {
{
throw new WorkboxError_js.WorkboxError(`expired-test-without-max-age`, {
methodName: 'isURLExpired',
paramName: 'maxAgeSeconds'
});
}
} else {
const timestamp = await this._timestampModel.getTimestamp(url);
const expireOlderThan = Date.now() - this._maxAgeSeconds * 1000;
return timestamp !== undefined ? timestamp < expireOlderThan : true;
}
}
/**
* Removes the IndexedDB object store used to keep track of cache expiration
* metadata.
*/
async delete() {
// Make sure we don't attempt another rerun if we're called in the middle of
// a cache expiration.
this._rerunRequested = false;
await this._timestampModel.expireEntries(Infinity); // Expires all.
}
}
/*
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.
*/
/**
* This plugin can be used in a `workbox-strategy` to regularly enforce a
* limit on the age and / or the number of cached requests.
*
* It can only be used with `workbox-strategy` instances that have a
* [custom `cacheName` property set](/web/tools/workbox/guides/configure-workbox#custom_cache_names_in_strategies).
* In other words, it can't be used to expire entries in strategy that uses the
* default runtime cache name.
*
* Whenever a cached response is used or updated, this plugin will look
* at the associated cache and remove any old or extra responses.
*
* When using `maxAgeSeconds`, responses may be used *once* after expiring
* because the expiration clean up will not have occurred until *after* the
* cached response has been used. If the response has a "Date" header, then
* a light weight expiration check is performed and the response will not be
* used immediately.
*
* When using `maxEntries`, the entry least-recently requested will be removed
* from the cache first.
*
* @memberof workbox-expiration
*/
class ExpirationPlugin {
/**
* @param {ExpirationPluginOptions} config
* @param {number} [config.maxEntries] The maximum number of entries to cache.
* Entries used the least will be removed as the maximum is reached.
* @param {number} [config.maxAgeSeconds] The maximum age of an entry before
* it's treated as stale and removed.
* @param {Object} [config.matchOptions] The [`CacheQueryOptions`](https://developer.mozilla.org/en-US/docs/Web/API/Cache/delete#Parameters)
* that will be used when calling `delete()` on the cache.
* @param {boolean} [config.purgeOnQuotaError] Whether to opt this cache in to
* automatic deletion if the available storage quota has been exceeded.
*/
constructor(config = {}) {
/**
* A "lifecycle" callback that will be triggered automatically by the
* `workbox-strategies` handlers when a `Response` is about to be returned
* from a [Cache](https://developer.mozilla.org/en-US/docs/Web/API/Cache) to
* the handler. It allows the `Response` to be inspected for freshness and
* prevents it from being used if the `Response`'s `Date` header value is
* older than the configured `maxAgeSeconds`.
*
* @param {Object} options
* @param {string} options.cacheName Name of the cache the response is in.
* @param {Response} options.cachedResponse The `Response` object that's been
* read from a cache and whose freshness should be checked.
* @return {Response} Either the `cachedResponse`, if it's
* fresh, or `null` if the `Response` is older than `maxAgeSeconds`.
*
* @private
*/
this.cachedResponseWillBeUsed = async ({
event,
request,
cacheName,
cachedResponse
}) => {
if (!cachedResponse) {
return null;
}
const isFresh = this._isResponseDateFresh(cachedResponse); // Expire entries to ensure that even if the expiration date has
// expired, it'll only be used once.
const cacheExpiration = this._getCacheExpiration(cacheName);
dontWaitFor_js.dontWaitFor(cacheExpiration.expireEntries()); // Update the metadata for the request URL to the current timestamp,
// but don't `await` it as we don't want to block the response.
const updateTimestampDone = cacheExpiration.updateTimestamp(request.url);
if (event) {
try {
event.waitUntil(updateTimestampDone);
} catch (error) {
{
// The event may not be a fetch event; only log the URL if it is.
if ('request' in event) {
logger_js.logger.warn(`Unable to ensure service worker stays alive when ` + `updating cache entry for ` + `'${getFriendlyURL_js.getFriendlyURL(event.request.url)}'.`);
}
}
}
}
return isFresh ? cachedResponse : null;
};
/**
* A "lifecycle" callback that will be triggered automatically by the
* `workbox-strategies` handlers when an entry is added to a cache.
*
* @param {Object} options
* @param {string} options.cacheName Name of the cache that was updated.
* @param {string} options.request The Request for the cached entry.
*
* @private
*/
this.cacheDidUpdate = async ({
cacheName,
request
}) => {
{
assert_js.assert.isType(cacheName, 'string', {
moduleName: 'workbox-expiration',
className: 'Plugin',
funcName: 'cacheDidUpdate',
paramName: 'cacheName'
});
assert_js.assert.isInstance(request, Request, {
moduleName: 'workbox-expiration',
className: 'Plugin',
funcName: 'cacheDidUpdate',
paramName: 'request'
});
}
const cacheExpiration = this._getCacheExpiration(cacheName);
await cacheExpiration.updateTimestamp(request.url);
await cacheExpiration.expireEntries();
};
{
if (!(config.maxEntries || config.maxAgeSeconds)) {
throw new WorkboxError_js.WorkboxError('max-entries-or-age-required', {
moduleName: 'workbox-expiration',
className: 'Plugin',
funcName: 'constructor'
});
}
if (config.maxEntries) {
assert_js.assert.isType(config.maxEntries, 'number', {
moduleName: 'workbox-expiration',
className: 'Plugin',
funcName: 'constructor',
paramName: 'config.maxEntries'
});
}
if (config.maxAgeSeconds) {
assert_js.assert.isType(config.maxAgeSeconds, 'number', {
moduleName: 'workbox-expiration',
className: 'Plugin',
funcName: 'constructor',
paramName: 'config.maxAgeSeconds'
});
}
}
this._config = config;
this._maxAgeSeconds = config.maxAgeSeconds;
this._cacheExpirations = new Map();
if (config.purgeOnQuotaError) {
registerQuotaErrorCallback_js.registerQuotaErrorCallback(() => this.deleteCacheAndMetadata());
}
}
/**
* A simple helper method to return a CacheExpiration instance for a given
* cache name.
*
* @param {string} cacheName
* @return {CacheExpiration}
*
* @private
*/
_getCacheExpiration(cacheName) {
if (cacheName === cacheNames_js.cacheNames.getRuntimeName()) {
throw new WorkboxError_js.WorkboxError('expire-custom-caches-only');
}
let cacheExpiration = this._cacheExpirations.get(cacheName);
if (!cacheExpiration) {
cacheExpiration = new CacheExpiration(cacheName, this._config);
this._cacheExpirations.set(cacheName, cacheExpiration);
}
return cacheExpiration;
}
/**
* @param {Response} cachedResponse
* @return {boolean}
*
* @private
*/
_isResponseDateFresh(cachedResponse) {
if (!this._maxAgeSeconds) {
// We aren't expiring by age, so return true, it's fresh
return true;
} // Check if the 'date' header will suffice a quick expiration check.
// See https://github.com/GoogleChromeLabs/sw-toolbox/issues/164 for
// discussion.
const dateHeaderTimestamp = this._getDateHeaderTimestamp(cachedResponse);
if (dateHeaderTimestamp === null) {
// Unable to parse date, so assume it's fresh.
return true;
} // If we have a valid headerTime, then our response is fresh iff the
// headerTime plus maxAgeSeconds is greater than the current time.
const now = Date.now();
return dateHeaderTimestamp >= now - this._maxAgeSeconds * 1000;
}
/**
* This method will extract the data header and parse it into a useful
* value.
*
* @param {Response} cachedResponse
* @return {number|null}
*
* @private
*/
_getDateHeaderTimestamp(cachedResponse) {
if (!cachedResponse.headers.has('date')) {
return null;
}
const dateHeader = cachedResponse.headers.get('date');
const parsedDate = new Date(dateHeader);
const headerTime = parsedDate.getTime(); // If the Date header was invalid for some reason, parsedDate.getTime()
// will return NaN.
if (isNaN(headerTime)) {
return null;
}
return headerTime;
}
/**
* This is a helper method that performs two operations:
*
* - Deletes *all* the underlying Cache instances associated with this plugin
* instance, by calling caches.delete() on your behalf.
* - Deletes the metadata from IndexedDB used to keep track of expiration
* details for each Cache instance.
*
* When using cache expiration, calling this method is preferable to calling
* `caches.delete()` directly, since this will ensure that the IndexedDB
* metadata is also cleanly removed and open IndexedDB instances are deleted.
*
* Note that if you're *not* using cache expiration for a given cache, calling
* `caches.delete()` and passing in the cache's name should be sufficient.
* There is no Workbox-specific method needed for cleanup in that case.
*/
async deleteCacheAndMetadata() {
// Do this one at a time instead of all at once via `Promise.all()` to
// reduce the chance of inconsistency if a promise rejects.
for (const [cacheName, cacheExpiration] of this._cacheExpirations) {
await self.caches.delete(cacheName);
await cacheExpiration.delete();
} // Reset this._cacheExpirations to its initial state.
this._cacheExpirations = new Map();
}
}
exports.CacheExpiration = CacheExpiration;
exports.ExpirationPlugin = ExpirationPlugin;
return exports;
}({}, workbox.core._private, workbox.core._private, workbox.core._private, workbox.core._private, workbox.core._private, workbox.core._private, workbox.core));
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