ngsw-worker.js

(function () {
    'use strict';

    /**
     * @license
     * Copyright Google Inc. All Rights Reserved.
     *
     * Use of this source code is governed by an MIT-style license that can be
     * found in the LICENSE file at https://angular.io/license
     */
    /**
     * Adapts the service worker to its runtime environment.
     *
     * Mostly, this is used to mock out identifiers which are otherwise read
     * from the global scope.
     */
    class Adapter {
        /**
         * Wrapper around the `Request` constructor.
         */
        newRequest(input, init) {
            return new Request(input, init);
        }
        /**
         * Wrapper around the `Response` constructor.
         */
        newResponse(body, init) { return new Response(body, init); }
        /**
         * Wrapper around the `Headers` constructor.
         */
        newHeaders(headers) { return new Headers(headers); }
        /**
         * Test if a given object is an instance of `Client`.
         */
        isClient(source) { return (source instanceof Client); }
        /**
         * Read the current UNIX time in milliseconds.
         */
        get time() { return Date.now(); }
        /**
         * Extract the pathname of a URL.
         */
        parseUrl(url, relativeTo) {
            const parsed = new URL(url, relativeTo);
            return { origin: parsed.origin, path: parsed.pathname };
        }
        /**
         * Wait for a given amount of time before completing a Promise.
         */
        timeout(ms) {
            return new Promise(resolve => { setTimeout(() => resolve(), ms); });
        }
    }

    /**
     * @license
     * Copyright Google Inc. All Rights Reserved.
     *
     * Use of this source code is governed by an MIT-style license that can be
     * found in the LICENSE file at https://angular.io/license
     */
    /**
     * An error returned in rejected promises if the given key is not found in the table.
     */
    class NotFound {
        constructor(table, key) {
            this.table = table;
            this.key = key;
        }
    }

    /**
     * @license
     * Copyright Google Inc. All Rights Reserved.
     *
     * Use of this source code is governed by an MIT-style license that can be
     * found in the LICENSE file at https://angular.io/license
     */
    /**
     * An implementation of a `Database` that uses the `CacheStorage` API to serialize
     * state within mock `Response` objects.
     */
    class CacheDatabase {
        constructor(scope, adapter) {
            this.scope = scope;
            this.adapter = adapter;
            this.tables = new Map();
        }
        'delete'(name) {
            if (this.tables.has(name)) {
                this.tables.delete(name);
            }
            return this.scope.caches.delete(`ngsw:db:${name}`);
        }
        list() {
            return this.scope.caches.keys().then(keys => keys.filter(key => key.startsWith('ngsw:db:')));
        }
        open(name) {
            if (!this.tables.has(name)) {
                const table = this.scope.caches.open(`ngsw:db:${name}`)
                    .then(cache => new CacheTable(name, cache, this.adapter));
                this.tables.set(name, table);
            }
            return this.tables.get(name);
        }
    }
    /**
     * A `Table` backed by a `Cache`.
     */
    class CacheTable {
        constructor(table, cache, adapter) {
            this.table = table;
            this.cache = cache;
            this.adapter = adapter;
        }
        request(key) { return this.adapter.newRequest('/' + key); }
        'delete'(key) { return this.cache.delete(this.request(key)); }
        keys() {
            return this.cache.keys().then(requests => requests.map(req => req.url.substr(1)));
        }
        read(key) {
            return this.cache.match(this.request(key)).then(res => {
                if (res === undefined) {
                    return Promise.reject(new NotFound(this.table, key));
                }
                return res.json();
            });
        }
        write(key, value) {
            return this.cache.put(this.request(key), this.adapter.newResponse(JSON.stringify(value)));
        }
    }

    /**
     * @license
     * Copyright Google Inc. All Rights Reserved.
     *
     * Use of this source code is governed by an MIT-style license that can be
     * found in the LICENSE file at https://angular.io/license
     */
    var UpdateCacheStatus;
    (function (UpdateCacheStatus) {
        UpdateCacheStatus[UpdateCacheStatus["NOT_CACHED"] = 0] = "NOT_CACHED";
        UpdateCacheStatus[UpdateCacheStatus["CACHED_BUT_UNUSED"] = 1] = "CACHED_BUT_UNUSED";
        UpdateCacheStatus[UpdateCacheStatus["CACHED"] = 2] = "CACHED";
    })(UpdateCacheStatus || (UpdateCacheStatus = {}));

    /**
     * @license
     * Copyright Google Inc. All Rights Reserved.
     *
     * Use of this source code is governed by an MIT-style license that can be
     * found in the LICENSE file at https://angular.io/license
     */
    class SwCriticalError extends Error {
        constructor() {
            super(...arguments);
            this.isCritical = true;
        }
    }

    /**
     * @license
     * Copyright Google Inc. All Rights Reserved.
     *
     * Use of this source code is governed by an MIT-style license that can be
     * found in the LICENSE file at https://angular.io/license
     */
    /**
     * Compute the SHA1 of the given string
     *
     * see http://csrc.nist.gov/publications/fips/fips180-4/fips-180-4.pdf
     *
     * WARNING: this function has not been designed not tested with security in mind.
     *          DO NOT USE IT IN A SECURITY SENSITIVE CONTEXT.
     *
     * Borrowed from @angular/compiler/src/i18n/digest.ts
     */
    function sha1(str) {
        const utf8 = str;
        const words32 = stringToWords32(utf8, Endian.Big);
        return _sha1(words32, utf8.length * 8);
    }
    function sha1Binary(buffer) {
        const words32 = arrayBufferToWords32(buffer, Endian.Big);
        return _sha1(words32, buffer.byteLength * 8);
    }
    function _sha1(words32, len) {
        const w = new Array(80);
        let [a, b, c, d, e] = [0x67452301, 0xefcdab89, 0x98badcfe, 0x10325476, 0xc3d2e1f0];
        words32[len >> 5] |= 0x80 << (24 - len % 32);
        words32[((len + 64 >> 9) << 4) + 15] = len;
        for (let i = 0; i < words32.length; i += 16) {
            const [h0, h1, h2, h3, h4] = [a, b, c, d, e];
            for (let j = 0; j < 80; j++) {
                if (j < 16) {
                    w[j] = words32[i + j];
                }
                else {
                    w[j] = rol32(w[j - 3] ^ w[j - 8] ^ w[j - 14] ^ w[j - 16], 1);
                }
                const [f, k] = fk(j, b, c, d);
                const temp = [rol32(a, 5), f, e, k, w[j]].reduce(add32);
                [e, d, c, b, a] = [d, c, rol32(b, 30), a, temp];
            }
            [a, b, c, d, e] = [add32(a, h0), add32(b, h1), add32(c, h2), add32(d, h3), add32(e, h4)];
        }
        return byteStringToHexString(words32ToByteString([a, b, c, d, e]));
    }
    function add32(a, b) {
        return add32to64(a, b)[1];
    }
    function add32to64(a, b) {
        const low = (a & 0xffff) + (b & 0xffff);
        const high = (a >>> 16) + (b >>> 16) + (low >>> 16);
        return [high >>> 16, (high << 16) | (low & 0xffff)];
    }
    // Rotate a 32b number left `count` position
    function rol32(a, count) {
        return (a << count) | (a >>> (32 - count));
    }
    var Endian;
    (function (Endian) {
        Endian[Endian["Little"] = 0] = "Little";
        Endian[Endian["Big"] = 1] = "Big";
    })(Endian || (Endian = {}));
    function fk(index, b, c, d) {
        if (index < 20) {
            return [(b & c) | (~b & d), 0x5a827999];
        }
        if (index < 40) {
            return [b ^ c ^ d, 0x6ed9eba1];
        }
        if (index < 60) {
            return [(b & c) | (b & d) | (c & d), 0x8f1bbcdc];
        }
        return [b ^ c ^ d, 0xca62c1d6];
    }
    function stringToWords32(str, endian) {
        const words32 = Array((str.length + 3) >>> 2);
        for (let i = 0; i < words32.length; i++) {
            words32[i] = wordAt(str, i * 4, endian);
        }
        return words32;
    }
    function arrayBufferToWords32(buffer, endian) {
        const words32 = Array((buffer.byteLength + 3) >>> 2);
        const view = new Uint8Array(buffer);
        for (let i = 0; i < words32.length; i++) {
            words32[i] = wordAt(view, i * 4, endian);
        }
        return words32;
    }
    function byteAt(str, index) {
        if (typeof str === 'string') {
            return index >= str.length ? 0 : str.charCodeAt(index) & 0xff;
        }
        else {
            return index >= str.byteLength ? 0 : str[index] & 0xff;
        }
    }
    function wordAt(str, index, endian) {
        let word = 0;
        if (endian === Endian.Big) {
            for (let i = 0; i < 4; i++) {
                word += byteAt(str, index + i) << (24 - 8 * i);
            }
        }
        else {
            for (let i = 0; i < 4; i++) {
                word += byteAt(str, index + i) << 8 * i;
            }
        }
        return word;
    }
    function words32ToByteString(words32) {
        return words32.reduce((str, word) => str + word32ToByteString(word), '');
    }
    function word32ToByteString(word) {
        let str = '';
        for (let i = 0; i < 4; i++) {
            str += String.fromCharCode((word >>> 8 * (3 - i)) & 0xff);
        }
        return str;
    }
    function byteStringToHexString(str) {
        let hex = '';
        for (let i = 0; i < str.length; i++) {
            const b = byteAt(str, i);
            hex += (b >>> 4).toString(16) + (b & 0x0f).toString(16);
        }
        return hex.toLowerCase();
    }

    /**
     * @license
     * Copyright Google Inc. All Rights Reserved.
     *
     * Use of this source code is governed by an MIT-style license that can be
     * found in the LICENSE file at https://angular.io/license
     */
    var __awaiter = (undefined && undefined.__awaiter) || function (thisArg, _arguments, P, generator) {
        return new (P || (P = Promise))(function (resolve, reject) {
            function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
            function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
            function step(result) { result.done ? resolve(result.value) : new P(function (resolve) { resolve(result.value); }).then(fulfilled, rejected); }
            step((generator = generator.apply(thisArg, _arguments || [])).next());
        });
    };
    /**
     * A group of assets that are cached in a `Cache` and managed by a given policy.
     *
     * Concrete classes derive from this base and specify the exact caching policy.
     */
    class AssetGroup {
        constructor(scope, adapter, idle, config, hashes, db, prefix) {
            this.scope = scope;
            this.adapter = adapter;
            this.idle = idle;
            this.config = config;
            this.hashes = hashes;
            this.db = db;
            this.prefix = prefix;
            /**
             * A deduplication cache, to make sure the SW never makes two network requests
             * for the same resource at once. Managed by `fetchAndCacheOnce`.
             */
            this.inFlightRequests = new Map();
            /**
             * Regular expression patterns.
             */
            this.patterns = [];
            this.name = config.name;
            // Patterns in the config are regular expressions disguised as strings. Breathe life into them.
            this.patterns = this.config.patterns.map(pattern => new RegExp(pattern));
            // This is the primary cache, which holds all of the cached requests for this group. If a
            // resource
            // isn't in this cache, it hasn't been fetched yet.
            this.cache = this.scope.caches.open(`${this.prefix}:${this.config.name}:cache`);
            // This is the metadata table, which holds specific information for each cached URL, such as
            // the timestamp of when it was added to the cache.
            this.metadata = this.db.open(`${this.prefix}:${this.config.name}:meta`);
            // Determine the origin from the registration scope. This is used to differentiate between
            // relative and absolute URLs.
            this.origin =
                this.adapter.parseUrl(this.scope.registration.scope, this.scope.registration.scope).origin;
        }
        cacheStatus(url) {
            return __awaiter(this, void 0, void 0, function* () {
                const cache = yield this.cache;
                const meta = yield this.metadata;
                const res = yield cache.match(this.adapter.newRequest(url));
                if (res === undefined) {
                    return UpdateCacheStatus.NOT_CACHED;
                }
                try {
                    const data = yield meta.read(url);
                    if (!data.used) {
                        return UpdateCacheStatus.CACHED_BUT_UNUSED;
                    }
                }
                catch (_) {
                    // Error on the side of safety and assume cached.
                }
                return UpdateCacheStatus.CACHED;
            });
        }
        /**
         * Clean up all the cached data for this group.
         */
        cleanup() {
            return __awaiter(this, void 0, void 0, function* () {
                yield this.scope.caches.delete(`${this.prefix}:${this.config.name}:cache`);
                yield this.db.delete(`${this.prefix}:${this.config.name}:meta`);
            });
        }
        /**
         * Process a request for a given resource and return it, or return null if it's not available.
         */
        handleFetch(req, ctx) {
            return __awaiter(this, void 0, void 0, function* () {
                const url = this.getConfigUrl(req.url);
                // Either the request matches one of the known resource URLs, one of the patterns for
                // dynamically matched URLs, or neither. Determine which is the case for this request in
                // order to decide how to handle it.
                if (this.config.urls.indexOf(url) !== -1 || this.patterns.some(pattern => pattern.test(url))) {
                    // This URL matches a known resource. Either it's been cached already or it's missing, in
                    // which case it needs to be loaded from the network.
                    // Open the cache to check whether this resource is present.
                    const cache = yield this.cache;
                    // Look for a cached response. If one exists, it can be used to resolve the fetch
                    // operation.
                    const cachedResponse = yield cache.match(req);
                    if (cachedResponse !== undefined) {
                        // A response has already been cached (which presumably matches the hash for this
                        // resource). Check whether it's safe to serve this resource from cache.
                        if (this.hashes.has(url)) {
                            // This resource has a hash, and thus is versioned by the manifest. It's safe to return
                            // the response.
                            return cachedResponse;
                        }
                        else {
                            // This resource has no hash, and yet exists in the cache. Check how old this request is
                            // to make sure it's still usable.
                            if (yield this.needToRevalidate(req, cachedResponse)) {
                                this.idle.schedule(`revalidate(${this.prefix}, ${this.config.name}): ${req.url}`, () => __awaiter(this, void 0, void 0, function* () { yield this.fetchAndCacheOnce(req); }));
                            }
                            // In either case (revalidation or not), the cached response must be good.
                            return cachedResponse;
                        }
                    }
                    // No already-cached response exists, so attempt a fetch/cache operation. The original request
                    // may specify things like credential inclusion, but for assets these are not honored in order
                    // to avoid issues with opaque responses. The SW requests the data itself.
                    const res = yield this.fetchAndCacheOnce(this.adapter.newRequest(req.url));
                    // If this is successful, the response needs to be cloned as it might be used to respond to
                    // multiple fetch operations at the same time.
                    return res.clone();
                }
                else {
                    return null;
                }
            });
        }
        getConfigUrl(url) {
            // If the URL is relative to the SW's own origin, then only consider the path relative to
            // the domain root. Determine this by checking the URL's origin against the SW's.
            const parsed = this.adapter.parseUrl(url, this.scope.registration.scope);
            if (parsed.origin === this.origin) {
                // The URL is relative to the SW's origin domain.
                return parsed.path;
            }
            else {
                return url;
            }
        }
        /**
         * Some resources are cached without a hash, meaning that their expiration is controlled
         * by HTTP caching headers. Check whether the given request/response pair is still valid
         * per the caching headers.
         */
        needToRevalidate(req, res) {
            return __awaiter(this, void 0, void 0, function* () {
                // Three different strategies apply here:
                // 1) The request has a Cache-Control header, and thus expiration needs to be based on its age.
                // 2) The request has an Expires header, and expiration is based on the current timestamp.
                // 3) The request has no applicable caching headers, and must be revalidated.
                if (res.headers.has('Cache-Control')) {
                    // Figure out if there is a max-age directive in the Cache-Control header.
                    const cacheControl = res.headers.get('Cache-Control');
                    const cacheDirectives = cacheControl
                        // Directives are comma-separated within the Cache-Control header value.
                        .split(',')
                        // Make sure each directive doesn't have extraneous whitespace.
                        .map(v => v.trim())
                        // Some directives have values (like maxage and s-maxage)
                        .map(v => v.split('='));
                    // Lowercase all the directive names.
                    cacheDirectives.forEach(v => v[0] = v[0].toLowerCase());
                    // Find the max-age directive, if one exists.
                    const maxAgeDirective = cacheDirectives.find(v => v[0] === 'max-age');
                    const cacheAge = maxAgeDirective ? maxAgeDirective[1] : undefined;
                    if (!cacheAge) {
                        // No usable TTL defined. Must assume that the response is stale.
                        return true;
                    }
                    try {
                        const maxAge = 1000 * parseInt(cacheAge);
                        // Determine the origin time of this request. If the SW has metadata on the request (which
                        // it
                        // should), it will have the time the request was added to the cache. If it doesn't for some
                        // reason, the request may have a Date header which will serve the same purpose.
                        let ts;
                        try {
                            // Check the metadata table. If a timestamp is there, use it.
                            const metaTable = yield this.metadata;
                            ts = (yield metaTable.read(req.url)).ts;
                        }
                        catch (e) {
                            // Otherwise, look for a Date header.
                            const date = res.headers.get('Date');
                            if (date === null) {
                                // Unable to determine when this response was created. Assume that it's stale, and
                                // revalidate it.
                                return true;
                            }
                            ts = Date.parse(date);
                        }
                        const age = this.adapter.time - ts;
                        return age < 0 || age > maxAge;
                    }
                    catch (e) {
                        // Assume stale.
                        return true;
                    }
                }
                else if (res.headers.has('Expires')) {
                    // Determine if the expiration time has passed.
                    const expiresStr = res.headers.get('Expires');
                    try {
                        // The request needs to be revalidated if the current time is later than the expiration
                        // time, if it parses correctly.
                        return this.adapter.time > Date.parse(expiresStr);
                    }
                    catch (e) {
                        // The expiration date failed to parse, so revalidate as a precaution.
                        return true;
                    }
                }
                else {
                    // No way to evaluate staleness, so assume the response is already stale.
                    return true;
                }
            });
        }
        /**
         * Fetch the complete state of a cached resource, or return null if it's not found.
         */
        fetchFromCacheOnly(url) {
            return __awaiter(this, void 0, void 0, function* () {
                const cache = yield this.cache;
                const metaTable = yield this.metadata;
                // Lookup the response in the cache.
                const response = yield cache.match(this.adapter.newRequest(url));
                if (response === undefined) {
                    // It's not found, return null.
                    return null;
                }
                // Next, lookup the cached metadata.
                let metadata = undefined;
                try {
                    metadata = yield metaTable.read(url);
                }
                catch (e) {
                    // Do nothing, not found. This shouldn't happen, but it can be handled.
                }
                // Return both the response and any available metadata.
                return { response, metadata };
            });
        }
        /**
         * Lookup all resources currently stored in the cache which have no associated hash.
         */
        unhashedResources() {
            return __awaiter(this, void 0, void 0, function* () {
                const cache = yield this.cache;
                // Start with the set of all cached URLs.
                return (yield cache.keys())
                    .map(request => request.url)
                    // Exclude the URLs which have hashes.
                    .filter(url => !this.hashes.has(url));
            });
        }
        /**
         * Fetch the given resource from the network, and cache it if able.
         */
        fetchAndCacheOnce(req, used = true) {
            return __awaiter(this, void 0, void 0, function* () {
                // The `inFlightRequests` map holds information about which caching operations are currently
                // underway for known resources. If this request appears there, another "thread" is already
                // in the process of caching it, and this work should not be duplicated.
                if (this.inFlightRequests.has(req.url)) {
                    // There is a caching operation already in progress for this request. Wait for it to
                    // complete, and hopefully it will have yielded a useful response.
                    return this.inFlightRequests.get(req.url);
                }
                // No other caching operation is being attempted for this resource, so it will be owned here.
                // Go to the network and get the correct version.
                const fetchOp = this.fetchFromNetwork(req);
                // Save this operation in `inFlightRequests` so any other "thread" attempting to cache it
                // will block on this chain instead of duplicating effort.
                this.inFlightRequests.set(req.url, fetchOp);
                // Make sure this attempt is cleaned up properly on failure.
                try {
                    // Wait for a response. If this fails, the request will remain in `inFlightRequests`
                    // indefinitely.
                    const res = yield fetchOp;
                    // It's very important that only successful responses are cached. Unsuccessful responses
                    // should never be cached as this can completely break applications.
                    if (!res.ok) {
                        throw new Error(`Response not Ok (fetchAndCacheOnce): request for ${req.url} returned response ${res.status} ${res.statusText}`);
                    }
                    // This response is safe to cache (as long as it's cloned). Wait until the cache operation
                    // is complete.
                    const cache = yield this.scope.caches.open(`${this.prefix}:${this.config.name}:cache`);
                    yield cache.put(req, res.clone());
                    // If the request is not hashed, update its metadata, especially the timestamp. This is needed
                    // for future determination of whether this cached response is stale or not.
                    if (!this.hashes.has(req.url)) {
                        // Metadata is tracked for requests that are unhashed.
                        const meta = { ts: this.adapter.time, used };
                        const metaTable = yield this.metadata;
                        yield metaTable.write(req.url, meta);
                    }
                    return res;
                }
                finally {
                    // Finally, it can be removed from `inFlightRequests`. This might result in a double-remove
                    // if some other  chain was already making this request too, but that won't hurt anything.
                    this.inFlightRequests.delete(req.url);
                }
            });
        }
        fetchFromNetwork(req, redirectLimit = 3) {
            return __awaiter(this, void 0, void 0, function* () {
                // Make a cache-busted request for the resource.
                const res = yield this.cacheBustedFetchFromNetwork(req);
                // Check for redirected responses, and follow the redirects.
                if (res['redirected'] && !!res.url) {
                    // If the redirect limit is exhausted, fail with an error.
                    if (redirectLimit === 0) {
                        throw new SwCriticalError(`Response hit redirect limit (fetchFromNetwork): request redirected too many times, next is ${res.url}`);
                    }
                    // Unwrap the redirect directly.
                    return this.fetchFromNetwork(this.adapter.newRequest(res.url), redirectLimit - 1);
                }
                return res;
            });
        }
        /**
         * Load a particular asset from the network, accounting for hash validation.
         */
        cacheBustedFetchFromNetwork(req) {
            return __awaiter(this, void 0, void 0, function* () {
                const url = this.getConfigUrl(req.url);
                // If a hash is available for this resource, then compare the fetched version with the
                // canonical hash. Otherwise, the network version will have to be trusted.
                if (this.hashes.has(url)) {
                    // It turns out this resource does have a hash. Look it up. Unless the fetched version
                    // matches this hash, it's invalid and the whole manifest may need to be thrown out.
                    const canonicalHash = this.hashes.get(url);
                    // Ideally, the resource would be requested with cache-busting to guarantee the SW gets
                    // the freshest version. However, doing this would eliminate any chance of the response
                    // being in the HTTP cache. Given that the browser has recently actively loaded the page,
                    // it's likely that many of the responses the SW needs to cache are in the HTTP cache and
                    // are fresh enough to use. In the future, this could be done by setting cacheMode to
                    // *only* check the browser cache for a cached version of the resource, when cacheMode is
                    // fully supported. For now, the resource is fetched directly, without cache-busting, and
                    // if the hash test fails a cache-busted request is tried before concluding that the
                    // resource isn't correct. This gives the benefit of acceleration via the HTTP cache
                    // without the risk of stale data, at the expense of a duplicate request in the event of
                    // a stale response.
                    // Fetch the resource from the network (possibly hitting the HTTP cache).
                    const networkResult = yield this.safeFetch(req);
                    // Decide whether a cache-busted request is necessary. It might be for two independent
                    // reasons: either the non-cache-busted request failed (hopefully transiently) or if the
                    // hash of the content retrieved does not match the canonical hash from the manifest. It's
                    // only valid to access the content of the first response if the request was successful.
                    let makeCacheBustedRequest = networkResult.ok;
                    if (makeCacheBustedRequest) {
                        // The request was successful. A cache-busted request is only necessary if the hashes
                        // don't match. Compare them, making sure to clone the response so it can be used later
                        // if it proves to be valid.
                        const fetchedHash = sha1Binary(yield networkResult.clone().arrayBuffer());
                        makeCacheBustedRequest = (fetchedHash !== canonicalHash);
                    }
                    // Make a cache busted request to the network, if necessary.
                    if (makeCacheBustedRequest) {
                        // Hash failure, the version that was retrieved under the default URL did not have the
                        // hash expected. This could be because the HTTP cache got in the way and returned stale
                        // data, or because the version on the server really doesn't match. A cache-busting
                        // request will differentiate these two situations.
                        // TODO: handle case where the URL has parameters already (unlikely for assets).
                        const cacheBustReq = this.adapter.newRequest(this.cacheBust(req.url));
                        const cacheBustedResult = yield this.safeFetch(cacheBustReq);
                        // If the response was unsuccessful, there's nothing more that can be done.
                        if (!cacheBustedResult.ok) {
                            throw new SwCriticalError(`Response not Ok (cacheBustedFetchFromNetwork): cache busted request for ${req.url} returned response ${cacheBustedResult.status} ${cacheBustedResult.statusText}`);
                        }
                        // Hash the contents.
                        const cacheBustedHash = sha1Binary(yield cacheBustedResult.clone().arrayBuffer());
                        // If the cache-busted version doesn't match, then the manifest is not an accurate
                        // representation of the server's current set of files, and the SW should give up.
                        if (canonicalHash !== cacheBustedHash) {
                            throw new SwCriticalError(`Hash mismatch (cacheBustedFetchFromNetwork): ${req.url}: expected ${canonicalHash}, got ${cacheBustedHash} (after cache busting)`);
                        }
                        // If it does match, then use the cache-busted result.
                        return cacheBustedResult;
                    }
                    // Excellent, the version from the network matched on the first try, with no need for
                    // cache-busting. Use it.
                    return networkResult;
                }
                else {
                    // This URL doesn't exist in our hash database, so it must be requested directly.
                    return this.safeFetch(req);
                }
            });
        }
        /**
         * Possibly update a resource, if it's expired and needs to be updated. A no-op otherwise.
         */
        maybeUpdate(updateFrom, req, cache) {
            return __awaiter(this, void 0, void 0, function* () {
                const url = this.getConfigUrl(req.url);
                const meta = yield this.metadata;
                // Check if this resource is hashed and already exists in the cache of a prior version.
                if (this.hashes.has(url)) {
                    const hash = this.hashes.get(url);
                    // Check the caches of prior versions, using the hash to ensure the correct version of
                    // the resource is loaded.
                    const res = yield updateFrom.lookupResourceWithHash(url, hash);
                    // If a previously cached version was available, copy it over to this cache.
                    if (res !== null) {
                        // Copy to this cache.
                        yield cache.put(req, res);
                        yield meta.write(req.url, { ts: this.adapter.time, used: false });
                        // No need to do anything further with this resource, it's now cached properly.
                        return true;
                    }
                }
                // No up-to-date version of this resource could be found.
                return false;
            });
        }
        /**
         * Construct a cache-busting URL for a given URL.
         */
        cacheBust(url) {
            return url + (url.indexOf('?') === -1 ? '?' : '&') + 'ngsw-cache-bust=' + Math.random();
        }
        safeFetch(req) {
            return __awaiter(this, void 0, void 0, function* () {
                try {
                    return yield this.scope.fetch(req);
                }
                catch (err) {
                    return this.adapter.newResponse('', {
                        status: 504,
                        statusText: 'Gateway Timeout',
                    });
                }
            });
        }
    }
    /**
     * An `AssetGroup` that prefetches all of its resources during initialization.
     */
    class PrefetchAssetGroup extends AssetGroup {
        initializeFully(updateFrom) {
            return __awaiter(this, void 0, void 0, function* () {
                // Open the cache which actually holds requests.
                const cache = yield this.cache;
                // Cache all known resources serially. As this reduce proceeds, each Promise waits
                // on the last before starting the fetch/cache operation for the next request. Any
                // errors cause fall-through to the final Promise which rejects.
                yield this.config.urls.reduce((previous, url) => __awaiter(this, void 0, void 0, function* () {
                    // Wait on all previous operations to complete.
                    yield previous;
                    // Construct the Request for this url.
                    const req = this.adapter.newRequest(url);
                    // First, check the cache to see if there is already a copy of this resource.
                    const alreadyCached = (yield cache.match(req)) !== undefined;
                    // If the resource is in the cache already, it can be skipped.
                    if (alreadyCached) {
                        return;
                    }
                    // If an update source is available.
                    if (updateFrom !== undefined && (yield this.maybeUpdate(updateFrom, req, cache))) {
                        return;
                    }
                    // Otherwise, go to the network and hopefully cache the response (if successful).
                    yield this.fetchAndCacheOnce(req, false);
                }), Promise.resolve());
                // Handle updating of unknown (unhashed) resources. This is only possible if there's
                // a source to update from.
                if (updateFrom !== undefined) {
                    const metaTable = yield this.metadata;
                    // Select all of the previously cached resources. These are cached unhashed resources
                    // from previous versions of the app, in any asset group.
                    yield (yield updateFrom.previouslyCachedResources())
                        // First, narrow down the set of resources to those which are handled by this group.
                        // Either it's a known URL, or it matches a given pattern.
                        .filter(url => this.config.urls.some(cacheUrl => cacheUrl === url) ||
                        this.patterns.some(pattern => pattern.test(url)))
                        // Finally, process each resource in turn.
                        .reduce((previous, url) => __awaiter(this, void 0, void 0, function* () {
                        yield previous;
                        const req = this.adapter.newRequest(url);
                        // It's possible that the resource in question is already cached. If so,
                        // continue to the next one.
                        const alreadyCached = ((yield cache.match(req)) !== undefined);
                        if (alreadyCached) {
                            return;
                        }
                        // Get the most recent old version of the resource.
                        const res = yield updateFrom.lookupResourceWithoutHash(url);
                        if (res === null || res.metadata === undefined) {
                            // Unexpected, but not harmful.
                            return;
                        }
                        // Write it into the cache. It may already be expired, but it can still serve
                        // traffic until it's updated (stale-while-revalidate approach).
                        yield cache.put(req, res.response);
                        yield metaTable.write(url, Object.assign({}, res.metadata, { used: false }));
                    }), Promise.resolve());
                }
            });
        }
    }
    class LazyAssetGroup extends AssetGroup {
        initializeFully(updateFrom) {
            return __awaiter(this, void 0, void 0, function* () {
                // No action necessary if no update source is available - resources managed in this group
                // are all lazily loaded, so there's nothing to initialize.
                if (updateFrom === undefined) {
                    return;
                }
                // Open the cache which actually holds requests.
                const cache = yield this.cache;
                // Loop through the listed resources, caching any which are available.
                yield this.config.urls.reduce((previous, url) => __awaiter(this, void 0, void 0, function* () {
                    // Wait on all previous operations to complete.
                    yield previous;
                    // Construct the Request for this url.
                    const req = this.adapter.newRequest(url);
                    // First, check the cache to see if there is already a copy of this resource.
                    const alreadyCached = (yield cache.match(req)) !== undefined;
                    // If the resource is in the cache already, it can be skipped.
                    if (alreadyCached) {
                        return;
                    }
                    const updated = yield this.maybeUpdate(updateFrom, req, cache);
                    if (this.config.updateMode === 'prefetch' && !updated) {
                        // If the resource was not updated, either it was not cached before or
                        // the previously cached version didn't match the updated hash. In that
                        // case, prefetch update mode dictates that the resource will be updated,
                        // except if it was not previously utilized. Check the status of the
                        // cached resource to see.
                        const cacheStatus = yield updateFrom.recentCacheStatus(url);
                        // If the resource is not cached, or was cached but unused, then it will be
                        // loaded lazily.
                        if (cacheStatus !== UpdateCacheStatus.CACHED) {
                            return;
                        }
                        // Update from the network.
                        yield this.fetchAndCacheOnce(req, false);
                    }
                }), Promise.resolve());
            });
        }
    }

    /**
     * @license
     * Copyright Google Inc. All Rights Reserved.
     *
     * Use of this source code is governed by an MIT-style license that can be
     * found in the LICENSE file at https://angular.io/license
     */
    var __awaiter$1 = (undefined && undefined.__awaiter) || function (thisArg, _arguments, P, generator) {
        return new (P || (P = Promise))(function (resolve, reject) {
            function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
            function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
            function step(result) { result.done ? resolve(result.value) : new P(function (resolve) { resolve(result.value); }).then(fulfilled, rejected); }
            step((generator = generator.apply(thisArg, _arguments || [])).next());
        });
    };
    /**
     * Manages an instance of `LruState` and moves URLs to the head of the
     * chain when requested.
     */
    class LruList {
        constructor(state) {
            if (state === undefined) {
                state = {
                    head: null,
                    tail: null,
                    map: {},
                    count: 0,
                };
            }
            this.state = state;
        }
        /**
         * The current count of URLs in the list.
         */
        get size() { return this.state.count; }
        /**
         * Remove the tail.
         */
        pop() {
            // If there is no tail, return null.
            if (this.state.tail === null) {
                return null;
            }
            const url = this.state.tail;
            this.remove(url);
            // This URL has been successfully evicted.
            return url;
        }
        remove(url) {
            const node = this.state.map[url];
            if (node === undefined) {
                return false;
            }
            // Special case if removing the current head.
            if (this.state.head === url) {
                // The node is the current head. Special case the removal.
                if (node.next === null) {
                    // This is the only node. Reset the cache to be empty.
                    this.state.head = null;
                    this.state.tail = null;
                    this.state.map = {};
                    this.state.count = 0;
                    return true;
                }
                // There is at least one other node. Make the next node the new head.
                const next = this.state.map[node.next];
                next.previous = null;
                this.state.head = next.url;
                node.next = null;
                delete this.state.map[url];
                this.state.count--;
                return true;
            }
            // The node is not the head, so it has a previous. It may or may not be the tail.
            // If it is not, then it has a next. First, grab the previous node.
            const previous = this.state.map[node.previous];
            // Fix the forward pointer to skip over node and go directly to node.next.
            previous.next = node.next;
            // node.next may or may not be set. If it is, fix the back pointer to skip over node.
            // If it's not set, then this node happened to be the tail, and the tail needs to be
            // updated to point to the previous node (removing the tail).
            if (node.next !== null) {
                // There is a next node, fix its back pointer to skip this node.
                this.state.map[node.next].previous = node.previous;
            }
            else {
                // There is no next node - the accessed node must be the tail. Move the tail pointer.
                this.state.tail = node.previous;
            }
            node.next = null;
            node.previous = null;
            delete this.state.map[url];
            // Count the removal.
            this.state.count--;
            return true;
        }
        accessed(url) {
            // When a URL is accessed, its node needs to be moved to the head of the chain.
            // This is accomplished in two steps:
            //
            // 1) remove the node from its position within the chain.
            // 2) insert the node as the new head.
            //
            // Sometimes, a URL is accessed which has not been seen before. In this case, step 1 can
            // be skipped completely (which will grow the chain by one). Of course, if the node is
            // already the head, this whole operation can be skipped.
            if (this.state.head === url) {
                // The URL is already in the head position, accessing it is a no-op.
                return;
            }
            // Look up the node in the map, and construct a new entry if it's
            const node = this.state.map[url] || { url, next: null, previous: null };
            // Step 1: remove the node from its position within the chain, if it is in the chain.
            if (this.state.map[url] !== undefined) {
                this.remove(url);
            }
            // Step 2: insert the node at the head of the chain.
            // First, check if there's an existing head node. If there is, it has previous: null.
            // Its previous pointer should be set to the node we're inserting.
            if (this.state.head !== null) {
                this.state.map[this.state.head].previous = url;
            }
            // The next pointer of the node being inserted gets set to the old head, before the head
            // pointer is updated to this node.
            node.next = this.state.head;
            // The new head is the new node.
            this.state.head = url;
            // If there is no tail, then this is the first node, and is both the head and the tail.
            if (this.state.tail === null) {
                this.state.tail = url;
            }
            // Set the node in the map of nodes (if the URL has been seen before, this is a no-op)
            // and count the insertion.
            this.state.map[url] = node;
            this.state.count++;
        }
    }
    /**
     * A group of cached resources determined by a set of URL patterns which follow a LRU policy
     * for caching.
     */
    class DataGroup {
        constructor(scope, adapter, config, db, prefix) {
            this.scope = scope;
            this.adapter = adapter;
            this.config = config;
            this.db = db;
            this.prefix = prefix;
            /**
             * Tracks the LRU state of resources in this cache.
             */
            this._lru = null;
            this.patterns = this.config.patterns.map(pattern => new RegExp(pattern));
            this.cache = this.scope.caches.open(`${this.prefix}:dynamic:${this.config.name}:cache`);
            this.lruTable = this.db.open(`${this.prefix}:dynamic:${this.config.name}:lru`);
            this.ageTable = this.db.open(`${this.prefix}:dynamic:${this.config.name}:age`);
        }
        /**
         * Lazily initialize/load the LRU chain.
         */
        lru() {
            return __awaiter$1(this, void 0, void 0, function* () {
                if (this._lru === null) {
                    const table = yield this.lruTable;
                    try {
                        this._lru = new LruList(yield table.read('lru'));
                    }
                    catch (e) {
                        this._lru = new LruList();
                    }
                }
                return this._lru;
            });
        }
        /**
         * Sync the LRU chain to non-volatile storage.
         */
        syncLru() {
            return __awaiter$1(this, void 0, void 0, function* () {
                if (this._lru === null) {
                    return;
                }
                const table = yield this.lruTable;
                return table.write('lru', this._lru.state);
            });
        }
        /**
         * Process a fetch event and return a `Response` if the resource is covered by this group,
         * or `null` otherwise.
         */
        handleFetch(req, ctx) {
            return __awaiter$1(this, void 0, void 0, function* () {
                // Do nothing
                if (!this.patterns.some(pattern => pattern.test(req.url))) {
                    return null;
                }
                // Lazily initialize the LRU cache.
                const lru = yield this.lru();
                // The URL matches this cache. First, check whether this is a mutating request or not.
                switch (req.method) {
                    case 'OPTIONS':
                        // Don't try to cache this - it's non-mutating, but is part of a mutating request.
                        // Most likely SWs don't even see this, but this guard is here just in case.
                        return null;
                    case 'GET':
                    case 'HEAD':
                        // Handle the request with whatever strategy was selected.
                        switch (this.config.strategy) {
                            case 'freshness':
                                return this.handleFetchWithFreshness(req, ctx, lru);
                            case 'performance':
                                return this.handleFetchWithPerformance(req, ctx, lru);
                            default:
                                throw new Error(`Unknown strategy: ${this.config.strategy}`);
                        }
                    default:
                        // This was a mutating request. Assume the cache for this URL is no longer valid.
                        const wasCached = lru.remove(req.url);
                        // If there was a cached entry, remove it.
                        if (wasCached) {
                            yield this.clearCacheForUrl(req.url);
                        }
                        // Sync the LRU chain to non-volatile storage.
                        yield this.syncLru();
                        // Finally, fall back on the network.
                        return this.safeFetch(req);
                }
            });
        }
        handleFetchWithPerformance(req, ctx, lru) {
            return __awaiter$1(this, void 0, void 0, function* () {
                let res = null;
                // Check the cache first. If the resource exists there (and is not expired), the cached
                // version can be used.
                const fromCache = yield this.loadFromCache(req, lru);
                if (fromCache !== null) {
                    res = fromCache.res;
                    // Check the age of the resource.
                    if (this.config.refreshAheadMs !== undefined && fromCache.age >= this.config.refreshAheadMs) {
                        ctx.waitUntil(this.safeCacheResponse(req, this.safeFetch(req)));
                    }
                }
                if (res !== null) {
                    return res;
                }
                // No match from the cache. Go to the network. Note that this is not an 'await'
                // call, networkFetch is the actual Promise. This is due to timeout handling.
                const [timeoutFetch, networkFetch] = this.networkFetchWithTimeout(req);
                res = yield timeoutFetch;
                // Since fetch() will always return a response, undefined indicates a timeout.
                if (res === undefined) {
                    // The request timed out. Return a Gateway Timeout error.
                    res = this.adapter.newResponse(null, { status: 504, statusText: 'Gateway Timeout' });
                    // Cache the network response eventually.
                    ctx.waitUntil(this.safeCacheResponse(req, networkFetch));
                }
                // The request completed in time, so cache it inline with the response flow.
                yield this.cacheResponse(req, res, lru);
                return res;
            });
        }
        handleFetchWithFreshness(req, ctx, lru) {
            return __awaiter$1(this, void 0, void 0, function* () {
                // Start with a network fetch.
                const [timeoutFetch, networkFetch] = this.networkFetchWithTimeout(req);
                let res;
                // If that fetch errors, treat it as a timed out request.
                try {
                    res = yield timeoutFetch;
                }
                catch (e) {
                    res = undefined;
                }
                // If the network fetch times out or errors, fall back on the cache.
                if (res === undefined) {
                    ctx.waitUntil(this.safeCacheResponse(req, networkFetch));
                    // Ignore the age, the network response will be cached anyway due to the
                    // behavior of freshness.
                    const fromCache = yield this.loadFromCache(req, lru);
                    res = (fromCache !== null) ? fromCache.res : null;
                }
                else {
                    yield this.cacheResponse(req, res, lru, true);
                }
                // Either the network fetch didn't time out, or the cache yielded a usable response.
                // In either case, use it.
                if (res !== null) {
                    return res;
                }
                // No response in the cache. No choice but to fall back on the full network fetch.
                res = yield networkFetch;
                yield this.cacheResponse(req, res, lru, true);
                return res;
            });
        }
        networkFetchWithTimeout(req) {
            // If there is a timeout configured, race a timeout Promise with the network fetch.
            // Otherwise, just fetch from the network directly.
            if (this.config.timeoutMs !== undefined) {
                const networkFetch = this.scope.fetch(req);
                const safeNetworkFetch = (() => __awaiter$1(this, void 0, void 0, function* () {
                    try {
                        return yield networkFetch;
                    }
                    catch (err) {
                        return this.adapter.newResponse(null, {
                            status: 504,
                            statusText: 'Gateway Timeout',
                        });
                    }
                }))();
                const networkFetchUndefinedError = (() => __awaiter$1(this, void 0, void 0, function* () {
                    try {
                        return yield networkFetch;
                    }
                    catch (err) {
                        return undefined;
                    }
                }))();
                // Construct a Promise<undefined> for the timeout.
                const timeout = this.adapter.timeout(this.config.timeoutMs);
                // Race that with the network fetch. This will either be a Response, or `undefined`
                // in the event that the request errored or timed out.
                return [Promise.race([networkFetchUndefinedError, timeout]), safeNetworkFetch];
            }
            else {
                const networkFetch = this.safeFetch(req);
                // Do a plain fetch.
                return [networkFetch, networkFetch];
            }
        }
        safeCacheResponse(req, res) {
            return __awaiter$1(this, void 0, void 0, function* () {
                try {
                    yield this.cacheResponse(req, yield res, yield this.lru());
                }
                catch (e) {
                    // TODO: handle this error somehow?
                }
            });
        }
        loadFromCache(req, lru) {
            return __awaiter$1(this, void 0, void 0, function* () {
                // Look for a response in the cache. If one exists, return it.
                const cache = yield this.cache;
                let res = yield cache.match(req);
                if (res !== undefined) {
                    // A response was found in the cache, but its age is not yet known. Look it up.
                    try {
                        const ageTable = yield this.ageTable;
                        const age = this.adapter.time - (yield ageTable.read(req.url)).age;
                        // If the response is young enough, use it.
                        if (age <= this.config.maxAge) {
                            // Successful match from the cache. Use the response, after marking it as having
                            // been accessed.
                            lru.accessed(req.url);
                            return { res, age };
                        }
                        // Otherwise, or if there was an error, assume the response is expired, and evict it.
                    }
                    catch (e) {
                        // Some error getting the age for the response. Assume it's expired.
                    }
                    lru.remove(req.url);
                    yield this.clearCacheForUrl(req.url);
                    // TODO: avoid duplicate in event of network timeout, maybe.
                    yield this.syncLru();
                }
                return null;
            });
        }
        /**
         * Operation for caching the response from the server. This has to happen all
         * at once, so that the cache and LRU tracking remain in sync. If the network request
         * completes before the timeout, this logic will be run inline with the response flow.
         * If the request times out on the server, an error will be returned but the real network
         * request will still be running in the background, to be cached when it completes.
         */
        cacheResponse(req, res, lru, okToCacheOpaque = false) {
            return __awaiter$1(this, void 0, void 0, function* () {
                // Only cache successful responses.
                if (!res.ok || (okToCacheOpaque && res.type === 'opaque')) {
                    return;
                }
                // If caching this response would make the cache exceed its maximum size, evict something
                // first.
                if (lru.size >= this.config.maxSize) {
                    // The cache is too big, evict something.
                    const evictedUrl = lru.pop();
                    if (evictedUrl !== null) {
                        yield this.clearCacheForUrl(evictedUrl);
                    }
                }
                // TODO: evaluate for possible race conditions during flaky network periods.
                // Mark this resource as having been accessed recently. This ensures it won't be evicted
                // until enough other resources are requested that it falls off the end of the LRU chain.
                lru.accessed(req.url);
                // Store the response in the cache (cloning because the browser will consume
                // the body during the caching operation).
                yield (yield this.cache).put(req, res.clone());
                // Store the age of the cache.
                const ageTable = yield this.ageTable;
                yield ageTable.write(req.url, { age: this.adapter.time });
                // Sync the LRU chain to non-volatile storage.
                yield this.syncLru();
            });
        }
        /**
         * Delete all of the saved state which this group uses to track resources.
         */
        cleanup() {
            return __awaiter$1(this, void 0, void 0, function* () {
                // Remove both the cache and the database entries which track LRU stats.
                yield Promise.all([
                    this.scope.caches.delete(`${this.prefix}:dynamic:${this.config.name}:cache`),
                    this.db.delete(`${this.prefix}:dynamic:${this.config.name}:age`),
                    this.db.delete(`${this.prefix}:dynamic:${this.config.name}:lru`),
                ]);
            });
        }
        /**
         * Clear the state of the cache for a particular resource.
         *
         * This doesn't remove the resource from the LRU table, that is assumed to have
         * been done already. This clears the GET and HEAD versions of the request from
         * the cache itself, as well as the metadata stored in the age table.
         */
        clearCacheForUrl(url) {
            return __awaiter$1(this, void 0, void 0, function* () {
                const [cache, ageTable] = yield Promise.all([this.cache, this.ageTable]);
                yield Promise.all([
                    cache.delete(this.adapter.newRequest(url, { method: 'GET' })),
                    cache.delete(this.adapter.newRequest(url, { method: 'HEAD' })),
                    ageTable.delete(url),
                ]);
            });
        }
        safeFetch(req) {
            return __awaiter$1(this, void 0, void 0, function* () {
                try {
                    return this.scope.fetch(req);
                }
                catch (err) {
                    return this.adapter.newResponse(null, {
                        status: 504,
                        statusText: 'Gateway Timeout',
                    });
                }
            });
        }
    }

    /**
     * @license
     * Copyright Google Inc. All Rights Reserved.
     *
     * Use of this source code is governed by an MIT-style license that can be
     * found in the LICENSE file at https://angular.io/license
     */
    var __awaiter$2 = (undefined && undefined.__awaiter) || function (thisArg, _arguments, P, generator) {
        return new (P || (P = Promise))(function (resolve, reject) {
            function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
            function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
            function step(result) { result.done ? resolve(result.value) : new P(function (resolve) { resolve(result.value); }).then(fulfilled, rejected); }
            step((generator = generator.apply(thisArg, _arguments || [])).next());
        });
    };
    /**
     * A specific version of the application, identified by a unique manifest
     * as determined by its hash.
     *
     * Each `AppVersion` can be thought of as a published version of the app
     * that can be installed as an update to any previously installed versions.
     */
    class AppVersion {
        constructor(scope, adapter, database, idle, manifest, manifestHash) {
            this.scope = scope;
            this.adapter = adapter;
            this.database = database;
            this.idle = idle;
            this.manifest = manifest;
            this.manifestHash = manifestHash;
            /**
             * A Map of absolute URL paths (/foo.txt) to the known hash of their
             * contents (if available).
             */
            this.hashTable = new Map();
            /**
             * Tracks whether the manifest has encountered any inconsistencies.
             */
            this._okay = true;
            // The hashTable within the manifest is an Object - convert it to a Map for easier lookups.
            Object.keys(this.manifest.hashTable).forEach(url => {
                this.hashTable.set(url, this.manifest.hashTable[url]);
            });
            // Process each `AssetGroup` declared in the manifest. Each declared group gets an `AssetGroup`
            // instance
            // created for it, of a type that depends on the configuration mode.
            this.assetGroups = (manifest.assetGroups || []).map(config => {
                // Every asset group has a cache that's prefixed by the manifest hash and the name of the
                // group.
                const prefix = `ngsw:${this.manifestHash}:assets`;
                // Check the caching mode, which determines when resources will be fetched/updated.
                switch (config.installMode) {
                    case 'prefetch':
                        return new PrefetchAssetGroup(this.scope, this.adapter, this.idle, config, this.hashTable, this.database, prefix);
                    case 'lazy':
                        return new LazyAssetGroup(this.scope, this.adapter, this.idle, config, this.hashTable, this.database, prefix);
                }
            });
            // Process each `DataGroup` declared in the manifest.
            this.dataGroups = (manifest.dataGroups || [])
                .map(config => new DataGroup(this.scope, this.adapter, config, this.database, `ngsw:${config.version}:data`));
            // Create `include`/`exclude` RegExps for the `navigationUrls` declared in the manifest.
            const includeUrls = manifest.navigationUrls.filter(spec => spec.positive);
            const excludeUrls = manifest.navigationUrls.filter(spec => !spec.positive);
            this.navigationUrls = {
                include: includeUrls.map(spec => new RegExp(spec.regex)),
                exclude: excludeUrls.map(spec => new RegExp(spec.regex)),
            };
        }
        get okay() { return this._okay; }
        /**
         * Fully initialize this version of the application. If this Promise resolves successfully, all
         * required
         * data has been safely downloaded.
         */
        initializeFully(updateFrom) {
            return __awaiter$2(this, void 0, void 0, function* () {
                try {
                    // Fully initialize each asset group, in series. Starts with an empty Promise,
                    // and waits for the previous groups to have been initialized before initializing
                    // the next one in turn.
                    yield this.assetGroups.reduce((previous, group) => __awaiter$2(this, void 0, void 0, function* () {
                        // Wait for the previous groups to complete initialization. If there is a
                        // failure, this will throw, and each subsequent group will throw, until the
                        // whole sequence fails.
                        yield previous;
                        // Initialize this group.
                        return group.initializeFully(updateFrom);
                    }), Promise.resolve());
                }
                catch (err) {
                    this._okay = false;
                    throw err;
                }
            });
        }
        handleFetch(req, context) {
            return __awaiter$2(this, void 0, void 0, function* () {
                // Check the request against each `AssetGroup` in sequence. If an `AssetGroup` can't handle the
                // request,
                // it will return `null`. Thus, the first non-null response is the SW's answer to the request.
                // So reduce
                // the group list, keeping track of a possible response. If there is one, it gets passed
                // through, and if
                // not the next group is consulted to produce a candidate response.
                const asset = yield this.assetGroups.reduce((potentialResponse, group) => __awaiter$2(this, void 0, void 0, function* () {
                    // Wait on the previous potential response. If it's not null, it should just be passed
                    // through.
                    const resp = yield potentialResponse;
                    if (resp !== null) {
                        return resp;
                    }
                    // No response has been found yet. Maybe this group will have one.
                    return group.handleFetch(req, context);
                }), Promise.resolve(null));
                // The result of the above is the asset response, if there is any, or null otherwise. Return the
                // asset
                // response if there was one. If not, check with the data caching groups.
                if (asset !== null) {
                    return asset;
                }
                // Perform the same reduction operation as above, but this time processing
                // the data caching groups.
                const data = yield this.dataGroups.reduce((potentialResponse, group) => __awaiter$2(this, void 0, void 0, function* () {
                    const resp = yield potentialResponse;
                    if (resp !== null) {
                        return resp;
                    }
                    return group.handleFetch(req, context);
                }), Promise.resolve(null));
                // If the data caching group returned a response, go with it.
                if (data !== null) {
                    return data;
                }
                // Next, check if this is a navigation request for a route. Detect circular
                // navigations by checking if the request URL is the same as the index URL.
                if (req.url !== this.manifest.index && this.isNavigationRequest(req)) {
                    // This was a navigation request. Re-enter `handleFetch` with a request for
                    // the URL.
                    return this.handleFetch(this.adapter.newRequest(this.manifest.index), context);
                }
                return null;
            });
        }
        /**
         * Determine whether the request is a navigation request.
         * Takes into account: Request mode, `Accept` header, `navigationUrls` patterns.
         */
        isNavigationRequest(req) {
            if (req.mode !== 'navigate') {
                return false;
            }
            if (!this.acceptsTextHtml(req)) {
                return false;
            }
            const urlPrefix = this.scope.registration.scope.replace(/\/$/, '');
            const url = req.url.startsWith(urlPrefix) ? req.url.substr(urlPrefix.length) : req.url;
            const urlWithoutQueryOrHash = url.replace(/[?#].*$/, '');
            return this.navigationUrls.include.some(regex => regex.test(urlWithoutQueryOrHash)) &&
                !this.navigationUrls.exclude.some(regex => regex.test(urlWithoutQueryOrHash));
        }
        /**
         * Check this version for a given resource with a particular hash.
         */
        lookupResourceWithHash(url, hash) {
            return __awaiter$2(this, void 0, void 0, function* () {
                // Verify that this version has the requested resource cached. If not,
                // there's no point in trying.
                if (!this.hashTable.has(url)) {
                    return null;
                }
                // Next, check whether the resource has the correct hash. If not, any cached
                // response isn't usable.
                if (this.hashTable.get(url) !== hash) {
                    return null;
                }
                const cacheState = yield this.lookupResourceWithoutHash(url);
                return cacheState && cacheState.response;
            });
        }
        /**
         * Check this version for a given resource regardless of its hash.
         */
        lookupResourceWithoutHash(url) {
            // Limit the search to asset groups, and only scan the cache, don't
            // load resources from the network.
            return this.assetGroups.reduce((potentialResponse, group) => __awaiter$2(this, void 0, void 0, function* () {
                const resp = yield potentialResponse;
                if (resp !== null) {
                    return resp;
                }
                // fetchFromCacheOnly() avoids any network fetches, and returns the
                // full set of cache data, not just the Response.
                return group.fetchFromCacheOnly(url);
            }), Promise.resolve(null));
        }
        /**
         * List all unhashed resources from all asset groups.
         */
        previouslyCachedResources() {
            return this.assetGroups.reduce((resources, group) => __awaiter$2(this, void 0, void 0, function* () {
                return (yield resources).concat(yield group.unhashedResources());
            }), Promise.resolve([]));
        }
        recentCacheStatus(url) {
            return __awaiter$2(this, void 0, void 0, function* () {
                return this.assetGroups.reduce((current, group) => __awaiter$2(this, void 0, void 0, function* () {
                    const status = yield current;
                    if (status === UpdateCacheStatus.CACHED) {
                        return status;
                    }
                    const groupStatus = yield group.cacheStatus(url);
                    if (groupStatus === UpdateCacheStatus.NOT_CACHED) {
                        return status;
                    }
                    return groupStatus;
                }), Promise.resolve(UpdateCacheStatus.NOT_CACHED));
            });
        }
        /**
         * Erase this application version, by cleaning up all the caches.
         */
        cleanup() {
            return __awaiter$2(this, void 0, void 0, function* () {
                yield Promise.all(this.assetGroups.map(group => group.cleanup()));
                yield Promise.all(this.dataGroups.map(group => group.cleanup()));
            });
        }
        /**
         * Get the opaque application data which was provided with the manifest.
         */
        get appData() { return this.manifest.appData || null; }
        /**
         * Check whether a request accepts `text/html` (based on the `Accept` header).
         */
        acceptsTextHtml(req) {
            const accept = req.headers.get('Accept');
            if (accept === null) {
                return false;
            }
            const values = accept.split(',');
            return values.some(value => value.trim().toLowerCase() === 'text/html');
        }
    }

    /**
     * @license
     * Copyright Google Inc. All Rights Reserved.
     *
     * Use of this source code is governed by an MIT-style license that can be
     * found in the LICENSE file at https://angular.io/license
     */
    var __awaiter$3 = (undefined && undefined.__awaiter) || function (thisArg, _arguments, P, generator) {
        return new (P || (P = Promise))(function (resolve, reject) {
            function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
            function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
            function step(result) { result.done ? resolve(result.value) : new P(function (resolve) { resolve(result.value); }).then(fulfilled, rejected); }
            step((generator = generator.apply(thisArg, _arguments || [])).next());
        });
    };
    const DEBUG_LOG_BUFFER_SIZE = 100;
    class DebugHandler {
        constructor(driver, adapter) {
            this.driver = driver;
            this.adapter = adapter;
            // There are two debug log message arrays. debugLogA records new debugging messages.
            // Once it reaches DEBUG_LOG_BUFFER_SIZE, the array is moved to debugLogB and a new
            // array is assigned to debugLogA. This ensures that insertion to the debug log is
            // always O(1) no matter the number of logged messages, and that the total number
            // of messages in the log never exceeds 2 * DEBUG_LOG_BUFFER_SIZE.
            this.debugLogA = [];
            this.debugLogB = [];
        }
        handleFetch(req) {
            return __awaiter$3(this, void 0, void 0, function* () {
                const [state, versions, idle] = yield Promise.all([
                    this.driver.debugState(),
                    this.driver.debugVersions(),
                    this.driver.debugIdleState(),
                ]);
                const msgState = `NGSW Debug Info:

Driver state: ${state.state} (${state.why})
Latest manifest hash: ${state.latestHash || 'none'}
Last update check: ${this.since(state.lastUpdateCheck)}`;
                const msgVersions = versions
                    .map(version => `=== Version ${version.hash} ===

Clients: ${version.clients.join(', ')}`)
                    .join('\n\n');
                const msgIdle = `=== Idle Task Queue ===
Last update tick: ${this.since(idle.lastTrigger)}
Last update run: ${this.since(idle.lastRun)}
Task queue:
${idle.queue.map(v => ' * ' + v).join('\n')}

Debug log:
${this.formatDebugLog(this.debugLogB)}
${this.formatDebugLog(this.debugLogA)}
`;
                return this.adapter.newResponse(`${msgState}

${msgVersions}

${msgIdle}`, { headers: this.adapter.newHeaders({ 'Content-Type': 'text/plain' }) });
            });
        }
        since(time) {
            if (time === null) {
                return 'never';
            }
            let age = this.adapter.time - time;
            const days = Math.floor(age / 86400000);
            age = age % 86400000;
            const hours = Math.floor(age / 3600000);
            age = age % 3600000;
            const minutes = Math.floor(age / 60000);
            age = age % 60000;
            const seconds = Math.floor(age / 1000);
            const millis = age % 1000;
            return '' + (days > 0 ? `${days}d` : '') + (hours > 0 ? `${hours}h` : '') +
                (minutes > 0 ? `${minutes}m` : '') + (seconds > 0 ? `${seconds}s` : '') +
                (millis > 0 ? `${millis}u` : '');
        }
        log(value, context = '') {
            // Rotate the buffers if debugLogA has grown too large.
            if (this.debugLogA.length === DEBUG_LOG_BUFFER_SIZE) {
                this.debugLogB = this.debugLogA;
                this.debugLogA = [];
            }
            // Convert errors to string for logging.
            if (typeof value !== 'string') {
                value = this.errorToString(value);
            }
            // Log the message.
            this.debugLogA.push({ value, time: this.adapter.time, context });
        }
        errorToString(err) { return `${err.name}(${err.message}, ${err.stack})`; }
        formatDebugLog(log) {
            return log.map(entry => `[${this.since(entry.time)}] ${entry.value} ${entry.context}`)
                .join('\n');
        }
    }

    /**
     * @license
     * Copyright Google Inc. All Rights Reserved.
     *
     * Use of this source code is governed by an MIT-style license that can be
     * found in the LICENSE file at https://angular.io/license
     */
    var __awaiter$4 = (undefined && undefined.__awaiter) || function (thisArg, _arguments, P, generator) {
        return new (P || (P = Promise))(function (resolve, reject) {
            function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
            function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
            function step(result) { result.done ? resolve(result.value) : new P(function (resolve) { resolve(result.value); }).then(fulfilled, rejected); }
            step((generator = generator.apply(thisArg, _arguments || [])).next());
        });
    };
    class IdleScheduler {
        constructor(adapter, threshold, debug) {
            this.adapter = adapter;
            this.threshold = threshold;
            this.debug = debug;
            this.queue = [];
            this.scheduled = null;
            this.empty = Promise.resolve();
            this.emptyResolve = null;
            this.lastTrigger = null;
            this.lastRun = null;
        }
        trigger() {
            return __awaiter$4(this, void 0, void 0, function* () {
                this.lastTrigger = this.adapter.time;
                if (this.queue.length === 0) {
                    return;
                }
                if (this.scheduled !== null) {
                    this.scheduled.cancel = true;
                }
                const scheduled = {
                    cancel: false,
                };
                this.scheduled = scheduled;
                yield this.adapter.timeout(this.threshold);
                if (scheduled.cancel) {
                    return;
                }
                this.scheduled = null;
                yield this.execute();
            });
        }
        execute() {
            return __awaiter$4(this, void 0, void 0, function* () {
                this.lastRun = this.adapter.time;
                while (this.queue.length > 0) {
                    const queue = this.queue;
                    this.queue = [];
                    yield queue.reduce((previous, task) => __awaiter$4(this, void 0, void 0, function* () {
                        yield previous;
                        try {
                            yield task.run();
                        }
                        catch (err) {
                            this.debug.log(err, `while running idle task ${task.desc}`);
                        }
                    }), Promise.resolve());
                }
                if (this.emptyResolve !== null) {
                    this.emptyResolve();
                    this.emptyResolve = null;
                }
                this.empty = Promise.resolve();
            });
        }
        schedule(desc, run) {
            this.queue.push({ desc, run });
            if (this.emptyResolve === null) {
                this.empty = new Promise(resolve => { this.emptyResolve = resolve; });
            }
        }
        get size() { return this.queue.length; }
        get taskDescriptions() { return this.queue.map(task => task.desc); }
    }

    /**
     * @license
     * Copyright Google Inc. All Rights Reserved.
     *
     * Use of this source code is governed by an MIT-style license that can be
     * found in the LICENSE file at https://angular.io/license
     */
    function hashManifest(manifest) {
        return sha1(JSON.stringify(manifest));
    }

    /**
     * @license
     * Copyright Google Inc. All Rights Reserved.
     *
     * Use of this source code is governed by an MIT-style license that can be
     * found in the LICENSE file at https://angular.io/license
     */
    function isMsgCheckForUpdates(msg) {
        return msg.action === 'CHECK_FOR_UPDATES';
    }
    function isMsgActivateUpdate(msg) {
        return msg.action === 'ACTIVATE_UPDATE';
    }

    /**
     * @license
     * Copyright Google Inc. All Rights Reserved.
     *
     * Use of this source code is governed by an MIT-style license that can be
     * found in the LICENSE file at https://angular.io/license
     */
    var __awaiter$5 = (undefined && undefined.__awaiter) || function (thisArg, _arguments, P, generator) {
        return new (P || (P = Promise))(function (resolve, reject) {
            function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
            function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
            function step(result) { result.done ? resolve(result.value) : new P(function (resolve) { resolve(result.value); }).then(fulfilled, rejected); }
            step((generator = generator.apply(thisArg, _arguments || [])).next());
        });
    };
    const IDLE_THRESHOLD = 5000;
    const SUPPORTED_CONFIG_VERSION = 1;
    const NOTIFICATION_OPTION_NAMES = [
        'actions', 'badge', 'body', 'dir', 'icon', 'lang', 'renotify', 'requireInteraction', 'tag',
        'vibrate', 'data'
    ];
    var DriverReadyState;
    (function (DriverReadyState) {
        // The SW is operating in a normal mode, responding to all traffic.
        DriverReadyState[DriverReadyState["NORMAL"] = 0] = "NORMAL";
        // The SW does not have a clean installation of the latest version of the app, but older
        // cached versions are safe to use so long as they don't try to fetch new dependencies.
        // This is a degraded state.
        DriverReadyState[DriverReadyState["EXISTING_CLIENTS_ONLY"] = 1] = "EXISTING_CLIENTS_ONLY";
        // The SW has decided that caching is completely unreliable, and is forgoing request
        // handling until the next restart.
        DriverReadyState[DriverReadyState["SAFE_MODE"] = 2] = "SAFE_MODE";
    })(DriverReadyState || (DriverReadyState = {}));
    class Driver {
        constructor(scope, adapter, db) {
            // Set up all the event handlers that the SW needs.
            this.scope = scope;
            this.adapter = adapter;
            this.db = db;
            /**
             * Tracks the current readiness condition under which the SW is operating. This controls
             * whether the SW attempts to respond to some or all requests.
             */
            this.state = DriverReadyState.NORMAL;
            this.stateMessage = '(nominal)';
            /**
             * Tracks whether the SW is in an initialized state or not. Before initialization,
             * it's not legal to respond to requests.
             */
            this.initialized = null;
            /**
             * Maps client IDs to the manifest hash of the application version being used to serve
             * them. If a client ID is not present here, it has not yet been assigned a version.
             *
             * If a ManifestHash appears here, it is also present in the `versions` map below.
             */
            this.clientVersionMap = new Map();
            /**
             * Maps manifest hashes to instances of `AppVersion` for those manifests.
             */
            this.versions = new Map();
            /**
             * The latest version fetched from the server.
             *
             * Valid after initialization has completed.
             */
            this.latestHash = null;
            this.lastUpdateCheck = null;
            /**
             * Whether there is a check for updates currently scheduled due to navigation.
             */
            this.scheduledNavUpdateCheck = false;
            /**
             * Keep track of whether we have logged an invalid `only-if-cached` request.
             * (See `.onFetch()` for details.)
             */
            this.loggedInvalidOnlyIfCachedRequest = false;
            // The install event is triggered when the service worker is first installed.
            this.scope.addEventListener('install', (event) => {
                // SW code updates are separate from application updates, so code updates are
                // almost as straightforward as restarting the SW. Because of this, it's always
                // safe to skip waiting until application tabs are closed, and activate the new
                // SW version immediately.
                event.waitUntil(this.scope.skipWaiting());
            });
            // The activate event is triggered when this version of the service worker is
            // first activated.
            this.scope.addEventListener('activate', (event) => {
                // As above, it's safe to take over from existing clients immediately, since
                // the new SW version will continue to serve the old application.
                event.waitUntil(this.scope.clients.claim());
                // Rather than wait for the first fetch event, which may not arrive until
                // the next time the application is loaded, the SW takes advantage of the
                // activation event to schedule initialization. However, if this were run
                // in the context of the 'activate' event, waitUntil() here would cause fetch
                // events to block until initialization completed. Thus, the SW does a
                // postMessage() to itself, to schedule a new event loop iteration with an
                // entirely separate event context. The SW will be kept alive by waitUntil()
                // within that separate context while initialization proceeds, while at the
                // same time the activation event is allowed to resolve and traffic starts
                // being served.
                if (this.scope.registration.active !== null) {
                    this.scope.registration.active.postMessage({ action: 'INITIALIZE' });
                }
            });
            // Handle the fetch, message, and push events.
            this.scope.addEventListener('fetch', (event) => this.onFetch(event));
            this.scope.addEventListener('message', (event) => this.onMessage(event));
            this.scope.addEventListener('push', (event) => this.onPush(event));
            // The debugger generates debug pages in response to debugging requests.
            this.debugger = new DebugHandler(this, this.adapter);
            // The IdleScheduler will execute idle tasks after a given delay.
            this.idle = new IdleScheduler(this.adapter, IDLE_THRESHOLD, this.debugger);
        }
        /**
         * The handler for fetch events.
         *
         * This is the transition point between the synchronous event handler and the
         * asynchronous execution that eventually resolves for respondWith() and waitUntil().
         */
        onFetch(event) {
            const req = event.request;
            // The only thing that is served unconditionally is the debug page.
            if (this.adapter.parseUrl(req.url, this.scope.registration.scope).path === '/ngsw/state') {
                // Allow the debugger to handle the request, but don't affect SW state in any
                // other way.
                event.respondWith(this.debugger.handleFetch(req));
                return;
            }
            // If the SW is in a broken state where it's not safe to handle requests at all,
            // returning causes the request to fall back on the network. This is preferred over
            // `respondWith(fetch(req))` because the latter still shows in DevTools that the
            // request was handled by the SW.
            // TODO: try to handle DriverReadyState.EXISTING_CLIENTS_ONLY here.
            if (this.state === DriverReadyState.SAFE_MODE) {
                // Even though the worker is in safe mode, idle tasks still need to happen so
                // things like update checks, etc. can take place.
                event.waitUntil(this.idle.trigger());
                return;
            }
            // When opening DevTools in Chrome, a request is made for the current URL (and possibly related
            // resources, e.g. scripts) with `cache: 'only-if-cached'` and `mode: 'no-cors'`. These request
            // will eventually fail, because `only-if-cached` is only allowed to be used with
            // `mode: 'same-origin'`.
            // This is likely a bug in Chrome DevTools. Avoid handling such requests.
            // (See also https://github.com/angular/angular/issues/22362.)
            // TODO(gkalpak): Remove once no longer necessary (i.e. fixed in Chrome DevTools).
            if (req.cache === 'only-if-cached' && req.mode !== 'same-origin') {
                // Log the incident only the first time it happens, to avoid spamming the logs.
                if (!this.loggedInvalidOnlyIfCachedRequest) {
                    this.loggedInvalidOnlyIfCachedRequest = true;
                    this.debugger.log(`Ignoring invalid request: 'only-if-cached' can be set only with 'same-origin' mode`, `Driver.fetch(${req.url}, cache: ${req.cache}, mode: ${req.mode})`);
                }
                return;
            }
            // Past this point, the SW commits to handling the request itself. This could still
            // fail (and result in `state` being set to `SAFE_MODE`), but even in that case the
            // SW will still deliver a response.
            event.respondWith(this.handleFetch(event));
        }
        /**
         * The handler for message events.
         */
        onMessage(event) {
            // Ignore message events when the SW is in safe mode, for now.
            if (this.state === DriverReadyState.SAFE_MODE) {
                return;
            }
            // If the message doesn't have the expected signature, ignore it.
            const data = event.data;
            if (!data || !data.action) {
                return;
            }
            // Initialization is the only event which is sent directly from the SW to itself,
            // and thus `event.source` is not a Client. Handle it here, before the check
            // for Client sources.
            if (data.action === 'INITIALIZE') {
                // Only initialize if not already initialized (or initializing).
                if (this.initialized === null) {
                    // Initialize the SW.
                    this.initialized = this.initialize();
                    // Wait until initialization is properly scheduled, then trigger idle
                    // events to allow it to complete (assuming the SW is idle).
                    event.waitUntil((() => __awaiter$5(this, void 0, void 0, function* () {
                        yield this.initialized;
                        yield this.idle.trigger();
                    }))());
                }
                return;
            }
            // Only messages from true clients are accepted past this point (this is essentially
            // a typecast).
            if (!this.adapter.isClient(event.source)) {
                return;
            }
            // Handle the message and keep the SW alive until it's handled.
            event.waitUntil(this.handleMessage(data, event.source));
        }
        onPush(msg) {
            // Push notifications without data have no effect.
            if (!msg.data) {
                return;
            }
            // Handle the push and keep the SW alive until it's handled.
            msg.waitUntil(this.handlePush(msg.data.json()));
        }
        handleMessage(msg, from) {
            return __awaiter$5(this, void 0, void 0, function* () {
                if (isMsgCheckForUpdates(msg)) {
                    const action = (() => __awaiter$5(this, void 0, void 0, function* () { yield this.checkForUpdate(); }))();
                    yield this.reportStatus(from, action, msg.statusNonce);
                }
                else if (isMsgActivateUpdate(msg)) {
                    yield this.reportStatus(from, this.updateClient(from), msg.statusNonce);
                }
            });
        }
        handlePush(data) {
            return __awaiter$5(this, void 0, void 0, function* () {
                yield this.broadcast({
                    type: 'PUSH',
                    data,
                });
                if (!data.notification || !data.notification.title) {
                    return;
                }
                const desc = data.notification;
                let options = {};
                NOTIFICATION_OPTION_NAMES.filter(name => desc.hasOwnProperty(name))
                    .forEach(name => options[name] = desc[name]);
                yield this.scope.registration.showNotification(desc['title'], options);
            });
        }
        reportStatus(client, promise, nonce) {
            return __awaiter$5(this, void 0, void 0, function* () {
                const response = { type: 'STATUS', nonce, status: true };
                try {
                    yield promise;
                    client.postMessage(response);
                }
                catch (e) {
                    client.postMessage(Object.assign({}, response, { status: false, error: e.toString() }));
                }
            });
        }
        updateClient(client) {
            return __awaiter$5(this, void 0, void 0, function* () {
                // Figure out which version the client is on. If it's not on the latest,
                // it needs to be moved.
                const existing = this.clientVersionMap.get(client.id);
                if (existing === this.latestHash) {
                    // Nothing to do, this client is already on the latest version.
                    return;
                }
                // Switch the client over.
                let previous = undefined;
                // Look up the application data associated with the existing version. If there
                // isn't any, fall back on using the hash.
                if (existing !== undefined) {
                    const existingVersion = this.versions.get(existing);
                    previous = this.mergeHashWithAppData(existingVersion.manifest, existing);
                }
                // Set the current version used by the client, and sync the mapping to disk.
                this.clientVersionMap.set(client.id, this.latestHash);
                yield this.sync();
                // Notify the client about this activation.
                const current = this.versions.get(this.latestHash);
                const notice = {
                    type: 'UPDATE_ACTIVATED',
                    previous,
                    current: this.mergeHashWithAppData(current.manifest, this.latestHash),
                };
                client.postMessage(notice);
            });
        }
        handleFetch(event) {
            return __awaiter$5(this, void 0, void 0, function* () {
                // Since the SW may have just been started, it may or may not have been initialized already.
                // this.initialized will be `null` if initialization has not yet been attempted, or will be a
                // Promise which will resolve (successfully or unsuccessfully) if it has.
                if (this.initialized === null) {
                    // Initialization has not yet been attempted, so attempt it. This should only ever happen once
                    // per SW instantiation.
                    this.initialized = this.initialize();
                }
                // If initialization fails, the SW needs to enter a safe state, where it declines to respond to
                // network requests.
                try {
                    // Wait for initialization.
                    yield this.initialized;
                }
                catch (e) {
                    // Initialization failed. Enter a safe state.
                    this.state = DriverReadyState.SAFE_MODE;
                    this.stateMessage = `Initialization failed due to error: ${errorToString(e)}`;
                    // Even though the driver entered safe mode, background tasks still need to happen.
                    event.waitUntil(this.idle.trigger());
                    // Since the SW is already committed to responding to the currently active request,
                    // respond with a network fetch.
                    return this.safeFetch(event.request);
                }
                // On navigation requests, check for new updates.
                if (event.request.mode === 'navigate' && !this.scheduledNavUpdateCheck) {
                    this.scheduledNavUpdateCheck = true;
                    this.idle.schedule('check-updates-on-navigation', () => __awaiter$5(this, void 0, void 0, function* () {
                        this.scheduledNavUpdateCheck = false;
                        yield this.checkForUpdate();
                    }));
                }
                // Decide which version of the app to use to serve this request. This is asynchronous as in
                // some cases, a record will need to be written to disk about the assignment that is made.
                const appVersion = yield this.assignVersion(event);
                // Bail out
                if (appVersion === null) {
                    event.waitUntil(this.idle.trigger());
                    return this.safeFetch(event.request);
                }
                let res = null;
                try {
                    // Handle the request. First try the AppVersion. If that doesn't work, fall back on the
                    // network.
                    res = yield appVersion.handleFetch(event.request, event);
                }
                catch (err) {
                    if (err.isCritical) {
                        // Something went wrong with the activation of this version.
                        yield this.versionFailed(appVersion, err, this.latestHash === appVersion.manifestHash);
                        event.waitUntil(this.idle.trigger());
                        return this.safeFetch(event.request);
                    }
                    throw err;
                }
                // The AppVersion will only return null if the manifest doesn't specify what to do about this
                // request. In that case, just fall back on the network.
                if (res === null) {
                    event.waitUntil(this.idle.trigger());
                    return this.safeFetch(event.request);
                }
                // Trigger the idle scheduling system. The Promise returned by trigger() will resolve after
                // a specific amount of time has passed. If trigger() hasn't been called again by then (e.g.
                // on a subsequent request), the idle task queue will be drained and the Promise won't resolve
                // until that operation is complete as well.
                event.waitUntil(this.idle.trigger());
                // The AppVersion returned a usable response, so return it.
                return res;
            });
        }
        /**
         * Attempt to quickly reach a state where it's safe to serve responses.
         */
        initialize() {
            return __awaiter$5(this, void 0, void 0, function* () {
                // On initialization, all of the serialized state is read out of the 'control'
                // table. This includes:
                // - map of hashes to manifests of currently loaded application versions
                // - map of client IDs to their pinned versions
                // - record of the most recently fetched manifest hash
                //
                // If these values don't exist in the DB, then this is the either the first time
                // the SW has run or the DB state has been wiped or is inconsistent. In that case,
                // load a fresh copy of the manifest and reset the state from scratch.
                // Open up the DB table.
                const table = yield this.db.open('control');
                // Attempt to load the needed state from the DB. If this fails, the catch {} block
                // will populate these variables with freshly constructed values.
                let manifests, assignments, latest;
                try {
                    // Read them from the DB simultaneously.
                    [manifests, assignments, latest] = yield Promise.all([
                        table.read('manifests'),
                        table.read('assignments'),
                        table.read('latest'),
                    ]);
                    // Successfully loaded from saved state. This implies a manifest exists, so
                    // the update check needs to happen in the background.
                    this.idle.schedule('init post-load (update, cleanup)', () => __awaiter$5(this, void 0, void 0, function* () {
                        yield this.checkForUpdate();
                        try {
                            yield this.cleanupCaches();
                        }
                        catch (err) {
                            // Nothing to do - cleanup failed. Just log it.
                            this.debugger.log(err, 'cleanupCaches @ init post-load');
                        }
                    }));
                }
                catch (_) {
                    // Something went wrong. Try to start over by fetching a new manifest from the
                    // server and building up an empty initial state.
                    const manifest = yield this.fetchLatestManifest();
                    const hash = hashManifest(manifest);
                    manifests = {};
                    manifests[hash] = manifest;
                    assignments = {};
                    latest = { latest: hash };
                    // Save the initial state to the DB.
                    yield Promise.all([
                        table.write('manifests', manifests),
                        table.write('assignments', assignments),
                        table.write('latest', latest),
                    ]);
                }
                // At this point, either the state has been loaded successfully, or fresh state
                // with a new copy of the manifest has been produced. At this point, the `Driver`
                // can have its internals hydrated from the state.
                // Initialize the `versions` map by setting each hash to a new `AppVersion` instance
                // for that manifest.
                Object.keys(manifests).forEach((hash) => {
                    const manifest = manifests[hash];
                    // If the manifest is newly initialized, an AppVersion may have already been
                    // created for it.
                    if (!this.versions.has(hash)) {
                        this.versions.set(hash, new AppVersion(this.scope, this.adapter, this.db, this.idle, manifest, hash));
                    }
                });
                // Map each client ID to its associated hash. Along the way, verify that the hash
                // is still valid for that client ID. It should not be possible for a client to
                // still be associated with a hash that was since removed from the state.
                Object.keys(assignments).forEach((clientId) => {
                    const hash = assignments[clientId];
                    if (this.versions.has(hash)) {
                        this.clientVersionMap.set(clientId, hash);
                    }
                    else {
                        this.clientVersionMap.set(clientId, latest.latest);
                        this.debugger.log(`Unknown version ${hash} mapped for client ${clientId}, using latest instead`, `initialize: map assignments`);
                    }
                });
                // Set the latest version.
                this.latestHash = latest.latest;
                // Finally, assert that the latest version is in fact loaded.
                if (!this.versions.has(latest.latest)) {
                    throw new Error(`Invariant violated (initialize): latest hash ${latest.latest} has no known manifest`);
                }
                // Finally, wait for the scheduling of initialization of all versions in the
                // manifest. Ordinarily this just schedules the initializations to happen during
                // the next idle period, but in development mode this might actually wait for the
                // full initialization.
                // If any of these initializations fail, versionFailed() will be called either
                // synchronously or asynchronously to handle the failure and re-map clients.
                yield Promise.all(Object.keys(manifests).map((hash) => __awaiter$5(this, void 0, void 0, function* () {
                    try {
                        // Attempt to schedule or initialize this version. If this operation is
                        // successful, then initialization either succeeded or was scheduled. If
                        // it fails, then full initialization was attempted and failed.
                        yield this.scheduleInitialization(this.versions.get(hash), this.latestHash === hash);
                    }
                    catch (err) {
                        this.debugger.log(err, `initialize: schedule init of ${hash}`);
                        return false;
                    }
                })));
            });
        }
        lookupVersionByHash(hash, debugName = 'lookupVersionByHash') {
            // The version should exist, but check just in case.
            if (!this.versions.has(hash)) {
                throw new Error(`Invariant violated (${debugName}): want AppVersion for ${hash} but not loaded`);
            }
            return this.versions.get(hash);
        }
        /**
         * Decide which version of the manifest to use for the event.
         */
        assignVersion(event) {
            return __awaiter$5(this, void 0, void 0, function* () {
                // First, check whether the event has a (non empty) client ID. If it does, the version may
                // already be associated.
                const clientId = event.clientId;
                if (clientId) {
                    // Check if there is an assigned client id.
                    if (this.clientVersionMap.has(clientId)) {
                        // There is an assignment for this client already.
                        const hash = this.clientVersionMap.get(clientId);
                        let appVersion = this.lookupVersionByHash(hash, 'assignVersion');
                        // Ordinarily, this client would be served from its assigned version. But, if this
                        // request is a navigation request, this client can be updated to the latest
                        // version immediately.
                        if (this.state === DriverReadyState.NORMAL && hash !== this.latestHash &&
                            appVersion.isNavigationRequest(event.request)) {
                            // Update this client to the latest version immediately.
                            if (this.latestHash === null) {
                                throw new Error(`Invariant violated (assignVersion): latestHash was null`);
                            }
                            const client = yield this.scope.clients.get(clientId);
                            yield this.updateClient(client);
                            appVersion = this.lookupVersionByHash(this.latestHash, 'assignVersion');
                        }
                        // TODO: make sure the version is valid.
                        return appVersion;
                    }
                    else {
                        // This is the first time this client ID has been seen. Whether the SW is in a
                        // state to handle new clients depends on the current readiness state, so check
                        // that first.
                        if (this.state !== DriverReadyState.NORMAL) {
                            // It's not safe to serve new clients in the current state. It's possible that
                            // this is an existing client which has not been mapped yet (see below) but
                            // even if that is the case, it's invalid to make an assignment to a known
                            // invalid version, even if that assignment was previously implicit. Return
                            // undefined here to let the caller know that no assignment is possible at
                            // this time.
                            return null;
                        }
                        // It's safe to handle this request. Two cases apply. Either:
                        // 1) the browser assigned a client ID at the time of the navigation request, and
                        //    this is truly the first time seeing this client, or
                        // 2) a navigation request came previously from the same client, but with no client
                        //    ID attached. Browsers do this to avoid creating a client under the origin in
                        //    the event the navigation request is just redirected.
                        //
                        // In case 1, the latest version can safely be used.
                        // In case 2, the latest version can be used, with the assumption that the previous
                        // navigation request was answered under the same version. This assumption relies
                        // on the fact that it's unlikely an update will come in between the navigation
                        // request and requests for subsequent resources on that page.
                        // First validate the current state.
                        if (this.latestHash === null) {
                            throw new Error(`Invariant violated (assignVersion): latestHash was null`);
                        }
                        // Pin this client ID to the current latest version, indefinitely.
                        this.clientVersionMap.set(clientId, this.latestHash);
                        yield this.sync();
                        // Return the latest `AppVersion`.
                        return this.lookupVersionByHash(this.latestHash, 'assignVersion');
                    }
                }
                else {
                    // No client ID was associated with the request. This must be a navigation request
                    // for a new client. First check that the SW is accepting new clients.
                    if (this.state !== DriverReadyState.NORMAL) {
                        return null;
                    }
                    // Serve it with the latest version, and assume that the client will actually get
                    // associated with that version on the next request.
                    // First validate the current state.
                    if (this.latestHash === null) {
                        throw new Error(`Invariant violated (assignVersion): latestHash was null`);
                    }
                    // Return the latest `AppVersion`.
                    return this.lookupVersionByHash(this.latestHash, 'assignVersion');
                }
            });
        }
        fetchLatestManifest(ignoreOfflineError = false) {
            return __awaiter$5(this, void 0, void 0, function* () {
                const res = yield this.safeFetch(this.adapter.newRequest('ngsw.json?ngsw-cache-bust=' + Math.random()));
                if (!res.ok) {
                    if (res.status === 404) {
                        yield this.deleteAllCaches();
                        yield this.scope.registration.unregister();
                    }
                    else if (res.status === 504 && ignoreOfflineError) {
                        return null;
                    }
                    throw new Error(`Manifest fetch failed! (status: ${res.status})`);
                }
                this.lastUpdateCheck = this.adapter.time;
                return res.json();
            });
        }
        deleteAllCaches() {
            return __awaiter$5(this, void 0, void 0, function* () {
                yield (yield this.scope.caches.keys())
                    .filter(key => key.startsWith('ngsw:'))
                    .reduce((previous, key) => __awaiter$5(this, void 0, void 0, function* () {
                    yield Promise.all([
                        previous,
                        this.scope.caches.delete(key),
                    ]);
                }), Promise.resolve());
            });
        }
        /**
         * Schedule the SW's attempt to reach a fully prefetched state for the given AppVersion
         * when the SW is not busy and has connectivity. This returns a Promise which must be
         * awaited, as under some conditions the AppVersion might be initialized immediately.
         */
        scheduleInitialization(appVersion, latest) {
            return __awaiter$5(this, void 0, void 0, function* () {
                const initialize = () => __awaiter$5(this, void 0, void 0, function* () {
                    try {
                        yield appVersion.initializeFully();
                    }
                    catch (err) {
                        this.debugger.log(err, `initializeFully for ${appVersion.manifestHash}`);
                        yield this.versionFailed(appVersion, err, latest);
                    }
                });
                // TODO: better logic for detecting localhost.
                if (this.scope.registration.scope.indexOf('://localhost') > -1) {
                    return initialize();
                }
                this.idle.schedule(`initialization(${appVersion.manifestHash})`, initialize);
            });
        }
        versionFailed(appVersion, err, latest) {
            return __awaiter$5(this, void 0, void 0, function* () {
                // This particular AppVersion is broken. First, find the manifest hash.
                const broken = Array.from(this.versions.entries()).find(([hash, version]) => version === appVersion);
                if (broken === undefined) {
                    // This version is no longer in use anyway, so nobody cares.
                    return;
                }
                const brokenHash = broken[0];
                // TODO: notify affected apps.
                // The action taken depends on whether the broken manifest is the active (latest) or not.
                // If so, the SW cannot accept new clients, but can continue to service old ones.
                if (this.latestHash === brokenHash || latest) {
                    // The latest manifest is broken. This means that new clients are at the mercy of the
                    // network, but caches continue to be valid for previous versions. This is
                    // unfortunate but unavoidable.
                    this.state = DriverReadyState.EXISTING_CLIENTS_ONLY;
                    this.stateMessage = `Degraded due to failed initialization: ${errorToString(err)}`;
                    // Cancel the binding for these clients.
                    Array.from(this.clientVersionMap.keys())
                        .forEach(clientId => this.clientVersionMap.delete(clientId));
                }
                else {
                    // The current version is viable, but this older version isn't. The only
                    // possible remedy is to stop serving the older version and go to the network.
                    // Figure out which clients are affected and put them on the latest.
                    const affectedClients = Array.from(this.clientVersionMap.keys())
                        .filter(clientId => this.clientVersionMap.get(clientId) === brokenHash);
                    // Push the affected clients onto the latest version.
                    affectedClients.forEach(clientId => this.clientVersionMap.set(clientId, this.latestHash));
                }
                yield this.sync();
            });
        }
        setupUpdate(manifest, hash) {
            return __awaiter$5(this, void 0, void 0, function* () {
                const newVersion = new AppVersion(this.scope, this.adapter, this.db, this.idle, manifest, hash);
                // Firstly, check if the manifest version is correct.
                if (manifest.configVersion !== SUPPORTED_CONFIG_VERSION) {
                    yield this.deleteAllCaches();
                    yield this.scope.registration.unregister();
                    throw new Error(`Invalid config version: expected ${SUPPORTED_CONFIG_VERSION}, got ${manifest.configVersion}.`);
                }
                // Cause the new version to become fully initialized. If this fails, then the
                // version will not be available for use.
                yield newVersion.initializeFully(this);
                // Install this as an active version of the app.
                this.versions.set(hash, newVersion);
                // Future new clients will use this hash as the latest version.
                this.latestHash = hash;
                yield this.sync();
                yield this.notifyClientsAboutUpdate();
            });
        }
        checkForUpdate() {
            return __awaiter$5(this, void 0, void 0, function* () {
                let hash = '(unknown)';
                try {
                    const manifest = yield this.fetchLatestManifest(true);
                    if (manifest === null) {
                        // Client or server offline. Unable to check for updates at this time.
                        // Continue to service clients (existing and new).
                        this.debugger.log('Check for update aborted. (Client or server offline.)');
                        return false;
                    }
                    hash = hashManifest(manifest);
                    // Check whether this is really an update.
                    if (this.versions.has(hash)) {
                        return false;
                    }
                    yield this.setupUpdate(manifest, hash);
                    return true;
                }
                catch (err) {
                    this.debugger.log(err, `Error occurred while updating to manifest ${hash}`);
                    this.state = DriverReadyState.EXISTING_CLIENTS_ONLY;
                    this.stateMessage = `Degraded due to failed initialization: ${errorToString(err)}`;
                    return false;
                }
            });
        }
        /**
         * Synchronize the existing state to the underlying database.
         */
        sync() {
            return __awaiter$5(this, void 0, void 0, function* () {
                // Open up the DB table.
                const table = yield this.db.open('control');
                // Construct a serializable map of hashes to manifests.
                const manifests = {};
                this.versions.forEach((version, hash) => { manifests[hash] = version.manifest; });
                // Construct a serializable map of client ids to version hashes.
                const assignments = {};
                this.clientVersionMap.forEach((hash, clientId) => { assignments[clientId] = hash; });
                // Record the latest entry. Since this is a sync which is necessarily happening after
                // initialization, latestHash should always be valid.
                const latest = {
                    latest: this.latestHash,
                };
                // Synchronize all of these.
                yield Promise.all([
                    table.write('manifests', manifests),
                    table.write('assignments', assignments),
                    table.write('latest', latest),
                ]);
            });
        }
        cleanupCaches() {
            return __awaiter$5(this, void 0, void 0, function* () {
                // Query for all currently active clients, and list the client ids. This may skip
                // some clients in the browser back-forward cache, but not much can be done about
                // that.
                const activeClients = (yield this.scope.clients.matchAll()).map(client => client.id);
                // A simple list of client ids that the SW has kept track of. Subtracting
                // activeClients from this list will result in the set of client ids which are
                // being tracked but are no longer used in the browser, and thus can be cleaned up.
                const knownClients = Array.from(this.clientVersionMap.keys());
                // Remove clients in the clientVersionMap that are no longer active.
                knownClients.filter(id => activeClients.indexOf(id) === -1)
                    .forEach(id => this.clientVersionMap.delete(id));
                // Next, determine the set of versions which are still used. All others can be
                // removed.
                const usedVersions = new Set();
                this.clientVersionMap.forEach((version, _) => usedVersions.add(version));
                // Collect all obsolete versions by filtering out used versions from the set of all versions.
                const obsoleteVersions = Array.from(this.versions.keys())
                    .filter(version => !usedVersions.has(version) && version !== this.latestHash);
                // Remove all the versions which are no longer used.
                yield obsoleteVersions.reduce((previous, version) => __awaiter$5(this, void 0, void 0, function* () {
                    // Wait for the other cleanup operations to complete.
                    yield previous;
                    // Try to get past the failure of one particular version to clean up (this
                    // shouldn't happen, but handle it just in case).
                    try {
                        // Get ahold of the AppVersion for this particular hash.
                        const instance = this.versions.get(version);
                        // Delete it from the canonical map.
                        this.versions.delete(version);
                        // Clean it up.
                        yield instance.cleanup();
                    }
                    catch (err) {
                        // Oh well? Not much that can be done here. These caches will be removed when
                        // the SW revs its format version, which happens from time to time.
                        this.debugger.log(err, `cleanupCaches - cleanup ${version}`);
                    }
                }), Promise.resolve());
                // Commit all the changes to the saved state.
                yield this.sync();
            });
        }
        /**
         * Determine if a specific version of the given resource is cached anywhere within the SW,
         * and fetch it if so.
         */
        lookupResourceWithHash(url, hash) {
            return Array
                // Scan through the set of all cached versions, valid or otherwise. It's safe to do such
                // lookups even for invalid versions as the cached version of a resource will have the
                // same hash regardless.
                .from(this.versions.values())
                // Reduce the set of versions to a single potential result. At any point along the
                // reduction, if a response has already been identified, then pass it through, as no
                // future operation could change the response. If no response has been found yet, keep
                // checking versions until one is or until all versions have been exhausted.
                .reduce((prev, version) => __awaiter$5(this, void 0, void 0, function* () {
                // First, check the previous result. If a non-null result has been found already, just
                // return it.
                if ((yield prev) !== null) {
                    return prev;
                }
                // No result has been found yet. Try the next `AppVersion`.
                return version.lookupResourceWithHash(url, hash);
            }), Promise.resolve(null));
        }
        lookupResourceWithoutHash(url) {
            return __awaiter$5(this, void 0, void 0, function* () {
                yield this.initialized;
                const version = this.versions.get(this.latestHash);
                return version.lookupResourceWithoutHash(url);
            });
        }
        previouslyCachedResources() {
            return __awaiter$5(this, void 0, void 0, function* () {
                yield this.initialized;
                const version = this.versions.get(this.latestHash);
                return version.previouslyCachedResources();
            });
        }
        recentCacheStatus(url) {
            const version = this.versions.get(this.latestHash);
            return version.recentCacheStatus(url);
        }
        mergeHashWithAppData(manifest, hash) {
            return {
                hash,
                appData: manifest.appData,
            };
        }
        notifyClientsAboutUpdate() {
            return __awaiter$5(this, void 0, void 0, function* () {
                yield this.initialized;
                const clients = yield this.scope.clients.matchAll();
                const next = this.versions.get(this.latestHash);
                yield clients.reduce((previous, client) => __awaiter$5(this, void 0, void 0, function* () {
                    yield previous;
                    // Firstly, determine which version this client is on.
                    const version = this.clientVersionMap.get(client.id);
                    if (version === undefined) {
                        // Unmapped client - assume it's the latest.
                        return;
                    }
                    if (version === this.latestHash) {
                        // Client is already on the latest version, no need for a notification.
                        return;
                    }
                    const current = this.versions.get(version);
                    // Send a notice.
                    const notice = {
                        type: 'UPDATE_AVAILABLE',
                        current: this.mergeHashWithAppData(current.manifest, version),
                        available: this.mergeHashWithAppData(next.manifest, this.latestHash),
                    };
                    client.postMessage(notice);
                }), Promise.resolve());
            });
        }
        broadcast(msg) {
            return __awaiter$5(this, void 0, void 0, function* () {
                const clients = yield this.scope.clients.matchAll();
                clients.forEach(client => { client.postMessage(msg); });
            });
        }
        debugState() {
            return __awaiter$5(this, void 0, void 0, function* () {
                return {
                    state: DriverReadyState[this.state],
                    why: this.stateMessage,
                    latestHash: this.latestHash,
                    lastUpdateCheck: this.lastUpdateCheck,
                };
            });
        }
        debugVersions() {
            return __awaiter$5(this, void 0, void 0, function* () {
                // Build list of versions.
                return Array.from(this.versions.keys()).map(hash => {
                    const version = this.versions.get(hash);
                    const clients = Array.from(this.clientVersionMap.entries())
                        .filter(([clientId, version]) => version === hash)
                        .map(([clientId, version]) => clientId);
                    return {
                        hash,
                        manifest: version.manifest, clients,
                        status: '',
                    };
                });
            });
        }
        debugIdleState() {
            return __awaiter$5(this, void 0, void 0, function* () {
                return {
                    queue: this.idle.taskDescriptions,
                    lastTrigger: this.idle.lastTrigger,
                    lastRun: this.idle.lastRun,
                };
            });
        }
        safeFetch(req) {
            return __awaiter$5(this, void 0, void 0, function* () {
                try {
                    return yield this.scope.fetch(req);
                }
                catch (err) {
                    this.debugger.log(err, `Driver.fetch(${req.url})`);
                    return this.adapter.newResponse(null, {
                        status: 504,
                        statusText: 'Gateway Timeout',
                    });
                }
            });
        }
    }
    function errorToString(error) {
        if (error instanceof Error) {
            return `${error.message}\n${error.stack}`;
        }
        else {
            return `${error}`;
        }
    }

    /**
     * @license
     * Copyright Google Inc. All Rights Reserved.
     *
     * Use of this source code is governed by an MIT-style license that can be
     * found in the LICENSE file at https://angular.io/license
     */
    const scope = self;
    const adapter = new Adapter();
    const driver = new Driver(scope, adapter, new CacheDatabase(scope, adapter));

}());