import { _getProvider, getApp, SDK_VERSION as SDK_VERSION$1, _registerComponent, registerVersion } from '@firebase/app'; import { Component } from '@firebase/component'; import { stringify, jsonEval, contains, assert, isNodeSdk, stringToByteArray, Sha1, base64, deepCopy, base64Encode, isMobileCordova, stringLength, Deferred, safeGet, isAdmin, isValidFormat, isEmpty, isReactNative, assertionError, map, querystring, errorPrefix, getModularInstance, getDefaultEmulatorHostnameAndPort, createMockUserToken } from '@firebase/util'; import { Logger, LogLevel } from '@firebase/logger'; const name = "@firebase/database"; const version = "0.14.1"; /** * @license * Copyright 2019 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** The semver (www.semver.org) version of the SDK. */ let SDK_VERSION = ''; /** * SDK_VERSION should be set before any database instance is created * @internal */ function setSDKVersion(version) { SDK_VERSION = version; } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Wraps a DOM Storage object and: * - automatically encode objects as JSON strings before storing them to allow us to store arbitrary types. * - prefixes names with "firebase:" to avoid collisions with app data. * * We automatically (see storage.js) create two such wrappers, one for sessionStorage, * and one for localStorage. * */ class DOMStorageWrapper { /** * @param domStorage_ - The underlying storage object (e.g. localStorage or sessionStorage) */ constructor(domStorage_) { this.domStorage_ = domStorage_; // Use a prefix to avoid collisions with other stuff saved by the app. this.prefix_ = 'firebase:'; } /** * @param key - The key to save the value under * @param value - The value being stored, or null to remove the key. */ set(key, value) { if (value == null) { this.domStorage_.removeItem(this.prefixedName_(key)); } else { this.domStorage_.setItem(this.prefixedName_(key), stringify(value)); } } /** * @returns The value that was stored under this key, or null */ get(key) { const storedVal = this.domStorage_.getItem(this.prefixedName_(key)); if (storedVal == null) { return null; } else { return jsonEval(storedVal); } } remove(key) { this.domStorage_.removeItem(this.prefixedName_(key)); } prefixedName_(name) { return this.prefix_ + name; } toString() { return this.domStorage_.toString(); } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * An in-memory storage implementation that matches the API of DOMStorageWrapper * (TODO: create interface for both to implement). */ class MemoryStorage { constructor() { this.cache_ = {}; this.isInMemoryStorage = true; } set(key, value) { if (value == null) { delete this.cache_[key]; } else { this.cache_[key] = value; } } get(key) { if (contains(this.cache_, key)) { return this.cache_[key]; } return null; } remove(key) { delete this.cache_[key]; } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Helper to create a DOMStorageWrapper or else fall back to MemoryStorage. * TODO: Once MemoryStorage and DOMStorageWrapper have a shared interface this method annotation should change * to reflect this type * * @param domStorageName - Name of the underlying storage object * (e.g. 'localStorage' or 'sessionStorage'). * @returns Turning off type information until a common interface is defined. */ const createStoragefor = function (domStorageName) { try { // NOTE: just accessing "localStorage" or "window['localStorage']" may throw a security exception, // so it must be inside the try/catch. if (typeof window !== 'undefined' && typeof window[domStorageName] !== 'undefined') { // Need to test cache. Just because it's here doesn't mean it works const domStorage = window[domStorageName]; domStorage.setItem('firebase:sentinel', 'cache'); domStorage.removeItem('firebase:sentinel'); return new DOMStorageWrapper(domStorage); } } catch (e) { } // Failed to create wrapper. Just return in-memory storage. // TODO: log? return new MemoryStorage(); }; /** A storage object that lasts across sessions */ const PersistentStorage = createStoragefor('localStorage'); /** A storage object that only lasts one session */ const SessionStorage = createStoragefor('sessionStorage'); /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ const logClient = new Logger('@firebase/database'); /** * Returns a locally-unique ID (generated by just incrementing up from 0 each time its called). */ const LUIDGenerator = (function () { let id = 1; return function () { return id++; }; })(); /** * Sha1 hash of the input string * @param str - The string to hash * @returns {!string} The resulting hash */ const sha1 = function (str) { const utf8Bytes = stringToByteArray(str); const sha1 = new Sha1(); sha1.update(utf8Bytes); const sha1Bytes = sha1.digest(); return base64.encodeByteArray(sha1Bytes); }; const buildLogMessage_ = function (...varArgs) { let message = ''; for (let i = 0; i < varArgs.length; i++) { const arg = varArgs[i]; if (Array.isArray(arg) || (arg && typeof arg === 'object' && // eslint-disable-next-line @typescript-eslint/no-explicit-any typeof arg.length === 'number')) { message += buildLogMessage_.apply(null, arg); } else if (typeof arg === 'object') { message += stringify(arg); } else { message += arg; } message += ' '; } return message; }; /** * Use this for all debug messages in Firebase. */ let logger = null; /** * Flag to check for log availability on first log message */ let firstLog_ = true; /** * The implementation of Firebase.enableLogging (defined here to break dependencies) * @param logger_ - A flag to turn on logging, or a custom logger * @param persistent - Whether or not to persist logging settings across refreshes */ const enableLogging$1 = function (logger_, persistent) { assert(!persistent || logger_ === true || logger_ === false, "Can't turn on custom loggers persistently."); if (logger_ === true) { logClient.logLevel = LogLevel.VERBOSE; logger = logClient.log.bind(logClient); if (persistent) { SessionStorage.set('logging_enabled', true); } } else if (typeof logger_ === 'function') { logger = logger_; } else { logger = null; SessionStorage.remove('logging_enabled'); } }; const log = function (...varArgs) { if (firstLog_ === true) { firstLog_ = false; if (logger === null && SessionStorage.get('logging_enabled') === true) { enableLogging$1(true); } } if (logger) { const message = buildLogMessage_.apply(null, varArgs); logger(message); } }; const logWrapper = function (prefix) { return function (...varArgs) { log(prefix, ...varArgs); }; }; const error = function (...varArgs) { const message = 'FIREBASE INTERNAL ERROR: ' + buildLogMessage_(...varArgs); logClient.error(message); }; const fatal = function (...varArgs) { const message = `FIREBASE FATAL ERROR: ${buildLogMessage_(...varArgs)}`; logClient.error(message); throw new Error(message); }; const warn = function (...varArgs) { const message = 'FIREBASE WARNING: ' + buildLogMessage_(...varArgs); logClient.warn(message); }; /** * Logs a warning if the containing page uses https. Called when a call to new Firebase * does not use https. */ const warnIfPageIsSecure = function () { // Be very careful accessing browser globals. Who knows what may or may not exist. if (typeof window !== 'undefined' && window.location && window.location.protocol && window.location.protocol.indexOf('https:') !== -1) { warn('Insecure Firebase access from a secure page. ' + 'Please use https in calls to new Firebase().'); } }; /** * Returns true if data is NaN, or +/- Infinity. */ const isInvalidJSONNumber = function (data) { return (typeof data === 'number' && (data !== data || // NaN data === Number.POSITIVE_INFINITY || data === Number.NEGATIVE_INFINITY)); }; const executeWhenDOMReady = function (fn) { if (isNodeSdk() || document.readyState === 'complete') { fn(); } else { // Modeled after jQuery. Try DOMContentLoaded and onreadystatechange (which // fire before onload), but fall back to onload. let called = false; const wrappedFn = function () { if (!document.body) { setTimeout(wrappedFn, Math.floor(10)); return; } if (!called) { called = true; fn(); } }; if (document.addEventListener) { document.addEventListener('DOMContentLoaded', wrappedFn, false); // fallback to onload. window.addEventListener('load', wrappedFn, false); // eslint-disable-next-line @typescript-eslint/no-explicit-any } else if (document.attachEvent) { // IE. // eslint-disable-next-line @typescript-eslint/no-explicit-any document.attachEvent('onreadystatechange', () => { if (document.readyState === 'complete') { wrappedFn(); } }); // fallback to onload. // eslint-disable-next-line @typescript-eslint/no-explicit-any window.attachEvent('onload', wrappedFn); // jQuery has an extra hack for IE that we could employ (based on // http://javascript.nwbox.com/IEContentLoaded/) But it looks really old. // I'm hoping we don't need it. } } }; /** * Minimum key name. Invalid for actual data, used as a marker to sort before any valid names */ const MIN_NAME = '[MIN_NAME]'; /** * Maximum key name. Invalid for actual data, used as a marker to sort above any valid names */ const MAX_NAME = '[MAX_NAME]'; /** * Compares valid Firebase key names, plus min and max name */ const nameCompare = function (a, b) { if (a === b) { return 0; } else if (a === MIN_NAME || b === MAX_NAME) { return -1; } else if (b === MIN_NAME || a === MAX_NAME) { return 1; } else { const aAsInt = tryParseInt(a), bAsInt = tryParseInt(b); if (aAsInt !== null) { if (bAsInt !== null) { return aAsInt - bAsInt === 0 ? a.length - b.length : aAsInt - bAsInt; } else { return -1; } } else if (bAsInt !== null) { return 1; } else { return a < b ? -1 : 1; } } }; /** * @returns {!number} comparison result. */ const stringCompare = function (a, b) { if (a === b) { return 0; } else if (a < b) { return -1; } else { return 1; } }; const requireKey = function (key, obj) { if (obj && key in obj) { return obj[key]; } else { throw new Error('Missing required key (' + key + ') in object: ' + stringify(obj)); } }; const ObjectToUniqueKey = function (obj) { if (typeof obj !== 'object' || obj === null) { return stringify(obj); } const keys = []; // eslint-disable-next-line guard-for-in for (const k in obj) { keys.push(k); } // Export as json, but with the keys sorted. keys.sort(); let key = '{'; for (let i = 0; i < keys.length; i++) { if (i !== 0) { key += ','; } key += stringify(keys[i]); key += ':'; key += ObjectToUniqueKey(obj[keys[i]]); } key += '}'; return key; }; /** * Splits a string into a number of smaller segments of maximum size * @param str - The string * @param segsize - The maximum number of chars in the string. * @returns The string, split into appropriately-sized chunks */ const splitStringBySize = function (str, segsize) { const len = str.length; if (len <= segsize) { return [str]; } const dataSegs = []; for (let c = 0; c < len; c += segsize) { if (c + segsize > len) { dataSegs.push(str.substring(c, len)); } else { dataSegs.push(str.substring(c, c + segsize)); } } return dataSegs; }; /** * Apply a function to each (key, value) pair in an object or * apply a function to each (index, value) pair in an array * @param obj - The object or array to iterate over * @param fn - The function to apply */ function each(obj, fn) { for (const key in obj) { if (obj.hasOwnProperty(key)) { fn(key, obj[key]); } } } /** * Borrowed from http://hg.secondlife.com/llsd/src/tip/js/typedarray.js (MIT License) * I made one modification at the end and removed the NaN / Infinity * handling (since it seemed broken [caused an overflow] and we don't need it). See MJL comments. * @param v - A double * */ const doubleToIEEE754String = function (v) { assert(!isInvalidJSONNumber(v), 'Invalid JSON number'); // MJL const ebits = 11, fbits = 52; const bias = (1 << (ebits - 1)) - 1; let s, e, f, ln, i; // Compute sign, exponent, fraction // Skip NaN / Infinity handling --MJL. if (v === 0) { e = 0; f = 0; s = 1 / v === -Infinity ? 1 : 0; } else { s = v < 0; v = Math.abs(v); if (v >= Math.pow(2, 1 - bias)) { // Normalized ln = Math.min(Math.floor(Math.log(v) / Math.LN2), bias); e = ln + bias; f = Math.round(v * Math.pow(2, fbits - ln) - Math.pow(2, fbits)); } else { // Denormalized e = 0; f = Math.round(v / Math.pow(2, 1 - bias - fbits)); } } // Pack sign, exponent, fraction const bits = []; for (i = fbits; i; i -= 1) { bits.push(f % 2 ? 1 : 0); f = Math.floor(f / 2); } for (i = ebits; i; i -= 1) { bits.push(e % 2 ? 1 : 0); e = Math.floor(e / 2); } bits.push(s ? 1 : 0); bits.reverse(); const str = bits.join(''); // Return the data as a hex string. --MJL let hexByteString = ''; for (i = 0; i < 64; i += 8) { let hexByte = parseInt(str.substr(i, 8), 2).toString(16); if (hexByte.length === 1) { hexByte = '0' + hexByte; } hexByteString = hexByteString + hexByte; } return hexByteString.toLowerCase(); }; /** * Used to detect if we're in a Chrome content script (which executes in an * isolated environment where long-polling doesn't work). */ const isChromeExtensionContentScript = function () { return !!(typeof window === 'object' && window['chrome'] && window['chrome']['extension'] && !/^chrome/.test(window.location.href)); }; /** * Used to detect if we're in a Windows 8 Store app. */ const isWindowsStoreApp = function () { // Check for the presence of a couple WinRT globals return typeof Windows === 'object' && typeof Windows.UI === 'object'; }; /** * Converts a server error code to a Javascript Error */ function errorForServerCode(code, query) { let reason = 'Unknown Error'; if (code === 'too_big') { reason = 'The data requested exceeds the maximum size ' + 'that can be accessed with a single request.'; } else if (code === 'permission_denied') { reason = "Client doesn't have permission to access the desired data."; } else if (code === 'unavailable') { reason = 'The service is unavailable'; } const error = new Error(code + ' at ' + query._path.toString() + ': ' + reason); // eslint-disable-next-line @typescript-eslint/no-explicit-any error.code = code.toUpperCase(); return error; } /** * Used to test for integer-looking strings */ const INTEGER_REGEXP_ = new RegExp('^-?(0*)\\d{1,10}$'); /** * For use in keys, the minimum possible 32-bit integer. */ const INTEGER_32_MIN = -2147483648; /** * For use in kyes, the maximum possible 32-bit integer. */ const INTEGER_32_MAX = 2147483647; /** * If the string contains a 32-bit integer, return it. Else return null. */ const tryParseInt = function (str) { if (INTEGER_REGEXP_.test(str)) { const intVal = Number(str); if (intVal >= INTEGER_32_MIN && intVal <= INTEGER_32_MAX) { return intVal; } } return null; }; /** * Helper to run some code but catch any exceptions and re-throw them later. * Useful for preventing user callbacks from breaking internal code. * * Re-throwing the exception from a setTimeout is a little evil, but it's very * convenient (we don't have to try to figure out when is a safe point to * re-throw it), and the behavior seems reasonable: * * * If you aren't pausing on exceptions, you get an error in the console with * the correct stack trace. * * If you're pausing on all exceptions, the debugger will pause on your * exception and then again when we rethrow it. * * If you're only pausing on uncaught exceptions, the debugger will only pause * on us re-throwing it. * * @param fn - The code to guard. */ const exceptionGuard = function (fn) { try { fn(); } catch (e) { // Re-throw exception when it's safe. setTimeout(() => { // It used to be that "throw e" would result in a good console error with // relevant context, but as of Chrome 39, you just get the firebase.js // file/line number where we re-throw it, which is useless. So we log // e.stack explicitly. const stack = e.stack || ''; warn('Exception was thrown by user callback.', stack); throw e; }, Math.floor(0)); } }; /** * @returns {boolean} true if we think we're currently being crawled. */ const beingCrawled = function () { const userAgent = (typeof window === 'object' && window['navigator'] && window['navigator']['userAgent']) || ''; // For now we whitelist the most popular crawlers. We should refine this to be the set of crawlers we // believe to support JavaScript/AJAX rendering. // NOTE: Google Webmaster Tools doesn't really belong, but their "This is how a visitor to your website // would have seen the page" is flaky if we don't treat it as a crawler. return (userAgent.search(/googlebot|google webmaster tools|bingbot|yahoo! slurp|baiduspider|yandexbot|duckduckbot/i) >= 0); }; /** * Same as setTimeout() except on Node.JS it will /not/ prevent the process from exiting. * * It is removed with clearTimeout() as normal. * * @param fn - Function to run. * @param time - Milliseconds to wait before running. * @returns The setTimeout() return value. */ const setTimeoutNonBlocking = function (fn, time) { const timeout = setTimeout(fn, time); // Note: at the time of this comment, unrefTimer is under the unstable set of APIs. Run with --unstable to enable the API. if (typeof timeout === 'number' && // @ts-ignore Is only defined in Deno environments. typeof Deno !== 'undefined' && // @ts-ignore Deno and unrefTimer are only defined in Deno environments. Deno['unrefTimer']) { // @ts-ignore Deno and unrefTimer are only defined in Deno environments. Deno.unrefTimer(timeout); // eslint-disable-next-line @typescript-eslint/no-explicit-any } else if (typeof timeout === 'object' && timeout['unref']) { // eslint-disable-next-line @typescript-eslint/no-explicit-any timeout['unref'](); } return timeout; }; /** * @license * Copyright 2021 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Abstraction around AppCheck's token fetching capabilities. */ class AppCheckTokenProvider { constructor(appName_, appCheckProvider) { this.appName_ = appName_; this.appCheckProvider = appCheckProvider; this.appCheck = appCheckProvider === null || appCheckProvider === void 0 ? void 0 : appCheckProvider.getImmediate({ optional: true }); if (!this.appCheck) { appCheckProvider === null || appCheckProvider === void 0 ? void 0 : appCheckProvider.get().then(appCheck => (this.appCheck = appCheck)); } } getToken(forceRefresh) { if (!this.appCheck) { return new Promise((resolve, reject) => { // Support delayed initialization of FirebaseAppCheck. This allows our // customers to initialize the RTDB SDK before initializing Firebase // AppCheck and ensures that all requests are authenticated if a token // becomes available before the timoeout below expires. setTimeout(() => { if (this.appCheck) { this.getToken(forceRefresh).then(resolve, reject); } else { resolve(null); } }, 0); }); } return this.appCheck.getToken(forceRefresh); } addTokenChangeListener(listener) { var _a; (_a = this.appCheckProvider) === null || _a === void 0 ? void 0 : _a.get().then(appCheck => appCheck.addTokenListener(listener)); } notifyForInvalidToken() { warn(`Provided AppCheck credentials for the app named "${this.appName_}" ` + 'are invalid. This usually indicates your app was not initialized correctly.'); } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Abstraction around FirebaseApp's token fetching capabilities. */ class FirebaseAuthTokenProvider { constructor(appName_, firebaseOptions_, authProvider_) { this.appName_ = appName_; this.firebaseOptions_ = firebaseOptions_; this.authProvider_ = authProvider_; this.auth_ = null; this.auth_ = authProvider_.getImmediate({ optional: true }); if (!this.auth_) { authProvider_.onInit(auth => (this.auth_ = auth)); } } getToken(forceRefresh) { if (!this.auth_) { return new Promise((resolve, reject) => { // Support delayed initialization of FirebaseAuth. This allows our // customers to initialize the RTDB SDK before initializing Firebase // Auth and ensures that all requests are authenticated if a token // becomes available before the timoeout below expires. setTimeout(() => { if (this.auth_) { this.getToken(forceRefresh).then(resolve, reject); } else { resolve(null); } }, 0); }); } return this.auth_.getToken(forceRefresh).catch(error => { // TODO: Need to figure out all the cases this is raised and whether // this makes sense. if (error && error.code === 'auth/token-not-initialized') { log('Got auth/token-not-initialized error. Treating as null token.'); return null; } else { return Promise.reject(error); } }); } addTokenChangeListener(listener) { // TODO: We might want to wrap the listener and call it with no args to // avoid a leaky abstraction, but that makes removing the listener harder. if (this.auth_) { this.auth_.addAuthTokenListener(listener); } else { this.authProvider_ .get() .then(auth => auth.addAuthTokenListener(listener)); } } removeTokenChangeListener(listener) { this.authProvider_ .get() .then(auth => auth.removeAuthTokenListener(listener)); } notifyForInvalidToken() { let errorMessage = 'Provided authentication credentials for the app named "' + this.appName_ + '" are invalid. This usually indicates your app was not ' + 'initialized correctly. '; if ('credential' in this.firebaseOptions_) { errorMessage += 'Make sure the "credential" property provided to initializeApp() ' + 'is authorized to access the specified "databaseURL" and is from the correct ' + 'project.'; } else if ('serviceAccount' in this.firebaseOptions_) { errorMessage += 'Make sure the "serviceAccount" property provided to initializeApp() ' + 'is authorized to access the specified "databaseURL" and is from the correct ' + 'project.'; } else { errorMessage += 'Make sure the "apiKey" and "databaseURL" properties provided to ' + 'initializeApp() match the values provided for your app at ' + 'https://console.firebase.google.com/.'; } warn(errorMessage); } } /* AuthTokenProvider that supplies a constant token. Used by Admin SDK or mockUserToken with emulators. */ class EmulatorTokenProvider { constructor(accessToken) { this.accessToken = accessToken; } getToken(forceRefresh) { return Promise.resolve({ accessToken: this.accessToken }); } addTokenChangeListener(listener) { // Invoke the listener immediately to match the behavior in Firebase Auth // (see packages/auth/src/auth.js#L1807) listener(this.accessToken); } removeTokenChangeListener(listener) { } notifyForInvalidToken() { } } /** A string that is treated as an admin access token by the RTDB emulator. Used by Admin SDK. */ EmulatorTokenProvider.OWNER = 'owner'; /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ const PROTOCOL_VERSION = '5'; const VERSION_PARAM = 'v'; const TRANSPORT_SESSION_PARAM = 's'; const REFERER_PARAM = 'r'; const FORGE_REF = 'f'; // Matches console.firebase.google.com, firebase-console-*.corp.google.com and // firebase.corp.google.com const FORGE_DOMAIN_RE = /(console\.firebase|firebase-console-\w+\.corp|firebase\.corp)\.google\.com/; const LAST_SESSION_PARAM = 'ls'; const APPLICATION_ID_PARAM = 'p'; const APP_CHECK_TOKEN_PARAM = 'ac'; const WEBSOCKET = 'websocket'; const LONG_POLLING = 'long_polling'; /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * A class that holds metadata about a Repo object */ class RepoInfo { /** * @param host - Hostname portion of the url for the repo * @param secure - Whether or not this repo is accessed over ssl * @param namespace - The namespace represented by the repo * @param webSocketOnly - Whether to prefer websockets over all other transports (used by Nest). * @param nodeAdmin - Whether this instance uses Admin SDK credentials * @param persistenceKey - Override the default session persistence storage key */ constructor(host, secure, namespace, webSocketOnly, nodeAdmin = false, persistenceKey = '', includeNamespaceInQueryParams = false) { this.secure = secure; this.namespace = namespace; this.webSocketOnly = webSocketOnly; this.nodeAdmin = nodeAdmin; this.persistenceKey = persistenceKey; this.includeNamespaceInQueryParams = includeNamespaceInQueryParams; this._host = host.toLowerCase(); this._domain = this._host.substr(this._host.indexOf('.') + 1); this.internalHost = PersistentStorage.get('host:' + host) || this._host; } isCacheableHost() { return this.internalHost.substr(0, 2) === 's-'; } isCustomHost() { return (this._domain !== 'firebaseio.com' && this._domain !== 'firebaseio-demo.com'); } get host() { return this._host; } set host(newHost) { if (newHost !== this.internalHost) { this.internalHost = newHost; if (this.isCacheableHost()) { PersistentStorage.set('host:' + this._host, this.internalHost); } } } toString() { let str = this.toURLString(); if (this.persistenceKey) { str += '<' + this.persistenceKey + '>'; } return str; } toURLString() { const protocol = this.secure ? 'https://' : 'http://'; const query = this.includeNamespaceInQueryParams ? `?ns=${this.namespace}` : ''; return `${protocol}${this.host}/${query}`; } } function repoInfoNeedsQueryParam(repoInfo) { return (repoInfo.host !== repoInfo.internalHost || repoInfo.isCustomHost() || repoInfo.includeNamespaceInQueryParams); } /** * Returns the websocket URL for this repo * @param repoInfo - RepoInfo object * @param type - of connection * @param params - list * @returns The URL for this repo */ function repoInfoConnectionURL(repoInfo, type, params) { assert(typeof type === 'string', 'typeof type must == string'); assert(typeof params === 'object', 'typeof params must == object'); let connURL; if (type === WEBSOCKET) { connURL = (repoInfo.secure ? 'wss://' : 'ws://') + repoInfo.internalHost + '/.ws?'; } else if (type === LONG_POLLING) { connURL = (repoInfo.secure ? 'https://' : 'http://') + repoInfo.internalHost + '/.lp?'; } else { throw new Error('Unknown connection type: ' + type); } if (repoInfoNeedsQueryParam(repoInfo)) { params['ns'] = repoInfo.namespace; } const pairs = []; each(params, (key, value) => { pairs.push(key + '=' + value); }); return connURL + pairs.join('&'); } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Tracks a collection of stats. */ class StatsCollection { constructor() { this.counters_ = {}; } incrementCounter(name, amount = 1) { if (!contains(this.counters_, name)) { this.counters_[name] = 0; } this.counters_[name] += amount; } get() { return deepCopy(this.counters_); } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ const collections = {}; const reporters = {}; function statsManagerGetCollection(repoInfo) { const hashString = repoInfo.toString(); if (!collections[hashString]) { collections[hashString] = new StatsCollection(); } return collections[hashString]; } function statsManagerGetOrCreateReporter(repoInfo, creatorFunction) { const hashString = repoInfo.toString(); if (!reporters[hashString]) { reporters[hashString] = creatorFunction(); } return reporters[hashString]; } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * This class ensures the packets from the server arrive in order * This class takes data from the server and ensures it gets passed into the callbacks in order. */ class PacketReceiver { /** * @param onMessage_ */ constructor(onMessage_) { this.onMessage_ = onMessage_; this.pendingResponses = []; this.currentResponseNum = 0; this.closeAfterResponse = -1; this.onClose = null; } closeAfter(responseNum, callback) { this.closeAfterResponse = responseNum; this.onClose = callback; if (this.closeAfterResponse < this.currentResponseNum) { this.onClose(); this.onClose = null; } } /** * Each message from the server comes with a response number, and an array of data. The responseNumber * allows us to ensure that we process them in the right order, since we can't be guaranteed that all * browsers will respond in the same order as the requests we sent */ handleResponse(requestNum, data) { this.pendingResponses[requestNum] = data; while (this.pendingResponses[this.currentResponseNum]) { const toProcess = this.pendingResponses[this.currentResponseNum]; delete this.pendingResponses[this.currentResponseNum]; for (let i = 0; i < toProcess.length; ++i) { if (toProcess[i]) { exceptionGuard(() => { this.onMessage_(toProcess[i]); }); } } if (this.currentResponseNum === this.closeAfterResponse) { if (this.onClose) { this.onClose(); this.onClose = null; } break; } this.currentResponseNum++; } } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ // URL query parameters associated with longpolling const FIREBASE_LONGPOLL_START_PARAM = 'start'; const FIREBASE_LONGPOLL_CLOSE_COMMAND = 'close'; const FIREBASE_LONGPOLL_COMMAND_CB_NAME = 'pLPCommand'; const FIREBASE_LONGPOLL_DATA_CB_NAME = 'pRTLPCB'; const FIREBASE_LONGPOLL_ID_PARAM = 'id'; const FIREBASE_LONGPOLL_PW_PARAM = 'pw'; const FIREBASE_LONGPOLL_SERIAL_PARAM = 'ser'; const FIREBASE_LONGPOLL_CALLBACK_ID_PARAM = 'cb'; const FIREBASE_LONGPOLL_SEGMENT_NUM_PARAM = 'seg'; const FIREBASE_LONGPOLL_SEGMENTS_IN_PACKET = 'ts'; const FIREBASE_LONGPOLL_DATA_PARAM = 'd'; const FIREBASE_LONGPOLL_DISCONN_FRAME_REQUEST_PARAM = 'dframe'; //Data size constants. //TODO: Perf: the maximum length actually differs from browser to browser. // We should check what browser we're on and set accordingly. const MAX_URL_DATA_SIZE = 1870; const SEG_HEADER_SIZE = 30; //ie: &seg=8299234&ts=982389123&d= const MAX_PAYLOAD_SIZE = MAX_URL_DATA_SIZE - SEG_HEADER_SIZE; /** * Keepalive period * send a fresh request at minimum every 25 seconds. Opera has a maximum request * length of 30 seconds that we can't exceed. */ const KEEPALIVE_REQUEST_INTERVAL = 25000; /** * How long to wait before aborting a long-polling connection attempt. */ const LP_CONNECT_TIMEOUT = 30000; /** * This class manages a single long-polling connection. */ class BrowserPollConnection { /** * @param connId An identifier for this connection, used for logging * @param repoInfo The info for the endpoint to send data to. * @param applicationId The Firebase App ID for this project. * @param appCheckToken The AppCheck token for this client. * @param authToken The AuthToken to use for this connection. * @param transportSessionId Optional transportSessionid if we are * reconnecting for an existing transport session * @param lastSessionId Optional lastSessionId if the PersistentConnection has * already created a connection previously */ constructor(connId, repoInfo, applicationId, appCheckToken, authToken, transportSessionId, lastSessionId) { this.connId = connId; this.repoInfo = repoInfo; this.applicationId = applicationId; this.appCheckToken = appCheckToken; this.authToken = authToken; this.transportSessionId = transportSessionId; this.lastSessionId = lastSessionId; this.bytesSent = 0; this.bytesReceived = 0; this.everConnected_ = false; this.log_ = logWrapper(connId); this.stats_ = statsManagerGetCollection(repoInfo); this.urlFn = (params) => { // Always add the token if we have one. if (this.appCheckToken) { params[APP_CHECK_TOKEN_PARAM] = this.appCheckToken; } return repoInfoConnectionURL(repoInfo, LONG_POLLING, params); }; } /** * @param onMessage - Callback when messages arrive * @param onDisconnect - Callback with connection lost. */ open(onMessage, onDisconnect) { this.curSegmentNum = 0; this.onDisconnect_ = onDisconnect; this.myPacketOrderer = new PacketReceiver(onMessage); this.isClosed_ = false; this.connectTimeoutTimer_ = setTimeout(() => { this.log_('Timed out trying to connect.'); // Make sure we clear the host cache this.onClosed_(); this.connectTimeoutTimer_ = null; // eslint-disable-next-line @typescript-eslint/no-explicit-any }, Math.floor(LP_CONNECT_TIMEOUT)); // Ensure we delay the creation of the iframe until the DOM is loaded. executeWhenDOMReady(() => { if (this.isClosed_) { return; } //Set up a callback that gets triggered once a connection is set up. this.scriptTagHolder = new FirebaseIFrameScriptHolder((...args) => { const [command, arg1, arg2, arg3, arg4] = args; this.incrementIncomingBytes_(args); if (!this.scriptTagHolder) { return; // we closed the connection. } if (this.connectTimeoutTimer_) { clearTimeout(this.connectTimeoutTimer_); this.connectTimeoutTimer_ = null; } this.everConnected_ = true; if (command === FIREBASE_LONGPOLL_START_PARAM) { this.id = arg1; this.password = arg2; } else if (command === FIREBASE_LONGPOLL_CLOSE_COMMAND) { // Don't clear the host cache. We got a response from the server, so we know it's reachable if (arg1) { // We aren't expecting any more data (other than what the server's already in the process of sending us // through our already open polls), so don't send any more. this.scriptTagHolder.sendNewPolls = false; // arg1 in this case is the last response number sent by the server. We should try to receive // all of the responses up to this one before closing this.myPacketOrderer.closeAfter(arg1, () => { this.onClosed_(); }); } else { this.onClosed_(); } } else { throw new Error('Unrecognized command received: ' + command); } }, (...args) => { const [pN, data] = args; this.incrementIncomingBytes_(args); this.myPacketOrderer.handleResponse(pN, data); }, () => { this.onClosed_(); }, this.urlFn); //Send the initial request to connect. The serial number is simply to keep the browser from pulling previous results //from cache. const urlParams = {}; urlParams[FIREBASE_LONGPOLL_START_PARAM] = 't'; urlParams[FIREBASE_LONGPOLL_SERIAL_PARAM] = Math.floor(Math.random() * 100000000); if (this.scriptTagHolder.uniqueCallbackIdentifier) { urlParams[FIREBASE_LONGPOLL_CALLBACK_ID_PARAM] = this.scriptTagHolder.uniqueCallbackIdentifier; } urlParams[VERSION_PARAM] = PROTOCOL_VERSION; if (this.transportSessionId) { urlParams[TRANSPORT_SESSION_PARAM] = this.transportSessionId; } if (this.lastSessionId) { urlParams[LAST_SESSION_PARAM] = this.lastSessionId; } if (this.applicationId) { urlParams[APPLICATION_ID_PARAM] = this.applicationId; } if (this.appCheckToken) { urlParams[APP_CHECK_TOKEN_PARAM] = this.appCheckToken; } if (typeof location !== 'undefined' && location.hostname && FORGE_DOMAIN_RE.test(location.hostname)) { urlParams[REFERER_PARAM] = FORGE_REF; } const connectURL = this.urlFn(urlParams); this.log_('Connecting via long-poll to ' + connectURL); this.scriptTagHolder.addTag(connectURL, () => { /* do nothing */ }); }); } /** * Call this when a handshake has completed successfully and we want to consider the connection established */ start() { this.scriptTagHolder.startLongPoll(this.id, this.password); this.addDisconnectPingFrame(this.id, this.password); } /** * Forces long polling to be considered as a potential transport */ static forceAllow() { BrowserPollConnection.forceAllow_ = true; } /** * Forces longpolling to not be considered as a potential transport */ static forceDisallow() { BrowserPollConnection.forceDisallow_ = true; } // Static method, use string literal so it can be accessed in a generic way static isAvailable() { if (isNodeSdk()) { return false; } else if (BrowserPollConnection.forceAllow_) { return true; } else { // NOTE: In React-Native there's normally no 'document', but if you debug a React-Native app in // the Chrome debugger, 'document' is defined, but document.createElement is null (2015/06/08). return (!BrowserPollConnection.forceDisallow_ && typeof document !== 'undefined' && document.createElement != null && !isChromeExtensionContentScript() && !isWindowsStoreApp()); } } /** * No-op for polling */ markConnectionHealthy() { } /** * Stops polling and cleans up the iframe */ shutdown_() { this.isClosed_ = true; if (this.scriptTagHolder) { this.scriptTagHolder.close(); this.scriptTagHolder = null; } //remove the disconnect frame, which will trigger an XHR call to the server to tell it we're leaving. if (this.myDisconnFrame) { document.body.removeChild(this.myDisconnFrame); this.myDisconnFrame = null; } if (this.connectTimeoutTimer_) { clearTimeout(this.connectTimeoutTimer_); this.connectTimeoutTimer_ = null; } } /** * Triggered when this transport is closed */ onClosed_() { if (!this.isClosed_) { this.log_('Longpoll is closing itself'); this.shutdown_(); if (this.onDisconnect_) { this.onDisconnect_(this.everConnected_); this.onDisconnect_ = null; } } } /** * External-facing close handler. RealTime has requested we shut down. Kill our connection and tell the server * that we've left. */ close() { if (!this.isClosed_) { this.log_('Longpoll is being closed.'); this.shutdown_(); } } /** * Send the JSON object down to the server. It will need to be stringified, base64 encoded, and then * broken into chunks (since URLs have a small maximum length). * @param data - The JSON data to transmit. */ send(data) { const dataStr = stringify(data); this.bytesSent += dataStr.length; this.stats_.incrementCounter('bytes_sent', dataStr.length); //first, lets get the base64-encoded data const base64data = base64Encode(dataStr); //We can only fit a certain amount in each URL, so we need to split this request //up into multiple pieces if it doesn't fit in one request. const dataSegs = splitStringBySize(base64data, MAX_PAYLOAD_SIZE); //Enqueue each segment for transmission. We assign each chunk a sequential ID and a total number //of segments so that we can reassemble the packet on the server. for (let i = 0; i < dataSegs.length; i++) { this.scriptTagHolder.enqueueSegment(this.curSegmentNum, dataSegs.length, dataSegs[i]); this.curSegmentNum++; } } /** * This is how we notify the server that we're leaving. * We aren't able to send requests with DHTML on a window close event, but we can * trigger XHR requests in some browsers (everything but Opera basically). */ addDisconnectPingFrame(id, pw) { if (isNodeSdk()) { return; } this.myDisconnFrame = document.createElement('iframe'); const urlParams = {}; urlParams[FIREBASE_LONGPOLL_DISCONN_FRAME_REQUEST_PARAM] = 't'; urlParams[FIREBASE_LONGPOLL_ID_PARAM] = id; urlParams[FIREBASE_LONGPOLL_PW_PARAM] = pw; this.myDisconnFrame.src = this.urlFn(urlParams); this.myDisconnFrame.style.display = 'none'; document.body.appendChild(this.myDisconnFrame); } /** * Used to track the bytes received by this client */ incrementIncomingBytes_(args) { // TODO: This is an annoying perf hit just to track the number of incoming bytes. Maybe it should be opt-in. const bytesReceived = stringify(args).length; this.bytesReceived += bytesReceived; this.stats_.incrementCounter('bytes_received', bytesReceived); } } /********************************************************************************************* * A wrapper around an iframe that is used as a long-polling script holder. *********************************************************************************************/ class FirebaseIFrameScriptHolder { /** * @param commandCB - The callback to be called when control commands are recevied from the server. * @param onMessageCB - The callback to be triggered when responses arrive from the server. * @param onDisconnect - The callback to be triggered when this tag holder is closed * @param urlFn - A function that provides the URL of the endpoint to send data to. */ constructor(commandCB, onMessageCB, onDisconnect, urlFn) { this.onDisconnect = onDisconnect; this.urlFn = urlFn; //We maintain a count of all of the outstanding requests, because if we have too many active at once it can cause //problems in some browsers. this.outstandingRequests = new Set(); //A queue of the pending segments waiting for transmission to the server. this.pendingSegs = []; //A serial number. We use this for two things: // 1) A way to ensure the browser doesn't cache responses to polls // 2) A way to make the server aware when long-polls arrive in a different order than we started them. The // server needs to release both polls in this case or it will cause problems in Opera since Opera can only execute // JSONP code in the order it was added to the iframe. this.currentSerial = Math.floor(Math.random() * 100000000); // This gets set to false when we're "closing down" the connection (e.g. we're switching transports but there's still // incoming data from the server that we're waiting for). this.sendNewPolls = true; if (!isNodeSdk()) { //Each script holder registers a couple of uniquely named callbacks with the window. These are called from the //iframes where we put the long-polling script tags. We have two callbacks: // 1) Command Callback - Triggered for control issues, like starting a connection. // 2) Message Callback - Triggered when new data arrives. this.uniqueCallbackIdentifier = LUIDGenerator(); window[FIREBASE_LONGPOLL_COMMAND_CB_NAME + this.uniqueCallbackIdentifier] = commandCB; window[FIREBASE_LONGPOLL_DATA_CB_NAME + this.uniqueCallbackIdentifier] = onMessageCB; //Create an iframe for us to add script tags to. this.myIFrame = FirebaseIFrameScriptHolder.createIFrame_(); // Set the iframe's contents. let script = ''; // if we set a javascript url, it's IE and we need to set the document domain. The javascript url is sufficient // for ie9, but ie8 needs to do it again in the document itself. if (this.myIFrame.src && this.myIFrame.src.substr(0, 'javascript:'.length) === 'javascript:') { const currentDomain = document.domain; script = ''; } const iframeContents = '' + script + ''; try { this.myIFrame.doc.open(); this.myIFrame.doc.write(iframeContents); this.myIFrame.doc.close(); } catch (e) { log('frame writing exception'); if (e.stack) { log(e.stack); } log(e); } } else { this.commandCB = commandCB; this.onMessageCB = onMessageCB; } } /** * Each browser has its own funny way to handle iframes. Here we mush them all together into one object that I can * actually use. */ static createIFrame_() { const iframe = document.createElement('iframe'); iframe.style.display = 'none'; // This is necessary in order to initialize the document inside the iframe if (document.body) { document.body.appendChild(iframe); try { // If document.domain has been modified in IE, this will throw an error, and we need to set the // domain of the iframe's document manually. We can do this via a javascript: url as the src attribute // Also note that we must do this *after* the iframe has been appended to the page. Otherwise it doesn't work. const a = iframe.contentWindow.document; if (!a) { // Apologies for the log-spam, I need to do something to keep closure from optimizing out the assignment above. log('No IE domain setting required'); } } catch (e) { const domain = document.domain; iframe.src = "javascript:void((function(){document.open();document.domain='" + domain + "';document.close();})())"; } } else { // LongPollConnection attempts to delay initialization until the document is ready, so hopefully this // never gets hit. throw 'Document body has not initialized. Wait to initialize Firebase until after the document is ready.'; } // Get the document of the iframe in a browser-specific way. if (iframe.contentDocument) { iframe.doc = iframe.contentDocument; // Firefox, Opera, Safari } else if (iframe.contentWindow) { iframe.doc = iframe.contentWindow.document; // Internet Explorer // eslint-disable-next-line @typescript-eslint/no-explicit-any } else if (iframe.document) { // eslint-disable-next-line @typescript-eslint/no-explicit-any iframe.doc = iframe.document; //others? } return iframe; } /** * Cancel all outstanding queries and remove the frame. */ close() { //Mark this iframe as dead, so no new requests are sent. this.alive = false; if (this.myIFrame) { //We have to actually remove all of the html inside this iframe before removing it from the //window, or IE will continue loading and executing the script tags we've already added, which //can lead to some errors being thrown. Setting textContent seems to be the safest way to do this. this.myIFrame.doc.body.textContent = ''; setTimeout(() => { if (this.myIFrame !== null) { document.body.removeChild(this.myIFrame); this.myIFrame = null; } }, Math.floor(0)); } // Protect from being called recursively. const onDisconnect = this.onDisconnect; if (onDisconnect) { this.onDisconnect = null; onDisconnect(); } } /** * Actually start the long-polling session by adding the first script tag(s) to the iframe. * @param id - The ID of this connection * @param pw - The password for this connection */ startLongPoll(id, pw) { this.myID = id; this.myPW = pw; this.alive = true; //send the initial request. If there are requests queued, make sure that we transmit as many as we are currently able to. while (this.newRequest_()) { } } /** * This is called any time someone might want a script tag to be added. It adds a script tag when there aren't * too many outstanding requests and we are still alive. * * If there are outstanding packet segments to send, it sends one. If there aren't, it sends a long-poll anyways if * needed. */ newRequest_() { // We keep one outstanding request open all the time to receive data, but if we need to send data // (pendingSegs.length > 0) then we create a new request to send the data. The server will automatically // close the old request. if (this.alive && this.sendNewPolls && this.outstandingRequests.size < (this.pendingSegs.length > 0 ? 2 : 1)) { //construct our url this.currentSerial++; const urlParams = {}; urlParams[FIREBASE_LONGPOLL_ID_PARAM] = this.myID; urlParams[FIREBASE_LONGPOLL_PW_PARAM] = this.myPW; urlParams[FIREBASE_LONGPOLL_SERIAL_PARAM] = this.currentSerial; let theURL = this.urlFn(urlParams); //Now add as much data as we can. let curDataString = ''; let i = 0; while (this.pendingSegs.length > 0) { //first, lets see if the next segment will fit. const nextSeg = this.pendingSegs[0]; if (nextSeg.d.length + SEG_HEADER_SIZE + curDataString.length <= MAX_URL_DATA_SIZE) { //great, the segment will fit. Lets append it. const theSeg = this.pendingSegs.shift(); curDataString = curDataString + '&' + FIREBASE_LONGPOLL_SEGMENT_NUM_PARAM + i + '=' + theSeg.seg + '&' + FIREBASE_LONGPOLL_SEGMENTS_IN_PACKET + i + '=' + theSeg.ts + '&' + FIREBASE_LONGPOLL_DATA_PARAM + i + '=' + theSeg.d; i++; } else { break; } } theURL = theURL + curDataString; this.addLongPollTag_(theURL, this.currentSerial); return true; } else { return false; } } /** * Queue a packet for transmission to the server. * @param segnum - A sequential id for this packet segment used for reassembly * @param totalsegs - The total number of segments in this packet * @param data - The data for this segment. */ enqueueSegment(segnum, totalsegs, data) { //add this to the queue of segments to send. this.pendingSegs.push({ seg: segnum, ts: totalsegs, d: data }); //send the data immediately if there isn't already data being transmitted, unless //startLongPoll hasn't been called yet. if (this.alive) { this.newRequest_(); } } /** * Add a script tag for a regular long-poll request. * @param url - The URL of the script tag. * @param serial - The serial number of the request. */ addLongPollTag_(url, serial) { //remember that we sent this request. this.outstandingRequests.add(serial); const doNewRequest = () => { this.outstandingRequests.delete(serial); this.newRequest_(); }; // If this request doesn't return on its own accord (by the server sending us some data), we'll // create a new one after the KEEPALIVE interval to make sure we always keep a fresh request open. const keepaliveTimeout = setTimeout(doNewRequest, Math.floor(KEEPALIVE_REQUEST_INTERVAL)); const readyStateCB = () => { // Request completed. Cancel the keepalive. clearTimeout(keepaliveTimeout); // Trigger a new request so we can continue receiving data. doNewRequest(); }; this.addTag(url, readyStateCB); } /** * Add an arbitrary script tag to the iframe. * @param url - The URL for the script tag source. * @param loadCB - A callback to be triggered once the script has loaded. */ addTag(url, loadCB) { if (isNodeSdk()) { // eslint-disable-next-line @typescript-eslint/no-explicit-any this.doNodeLongPoll(url, loadCB); } else { setTimeout(() => { try { // if we're already closed, don't add this poll if (!this.sendNewPolls) { return; } const newScript = this.myIFrame.doc.createElement('script'); newScript.type = 'text/javascript'; newScript.async = true; newScript.src = url; // eslint-disable-next-line @typescript-eslint/no-explicit-any newScript.onload = newScript.onreadystatechange = function () { // eslint-disable-next-line @typescript-eslint/no-explicit-any const rstate = newScript.readyState; if (!rstate || rstate === 'loaded' || rstate === 'complete') { // eslint-disable-next-line @typescript-eslint/no-explicit-any newScript.onload = newScript.onreadystatechange = null; if (newScript.parentNode) { newScript.parentNode.removeChild(newScript); } loadCB(); } }; newScript.onerror = () => { log('Long-poll script failed to load: ' + url); this.sendNewPolls = false; this.close(); }; this.myIFrame.doc.body.appendChild(newScript); } catch (e) { // TODO: we should make this error visible somehow } }, Math.floor(1)); } } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ const WEBSOCKET_MAX_FRAME_SIZE = 16384; const WEBSOCKET_KEEPALIVE_INTERVAL = 45000; let WebSocketImpl = null; if (typeof MozWebSocket !== 'undefined') { WebSocketImpl = MozWebSocket; } else if (typeof WebSocket !== 'undefined') { WebSocketImpl = WebSocket; } /** * Create a new websocket connection with the given callbacks. */ class WebSocketConnection { /** * @param connId identifier for this transport * @param repoInfo The info for the websocket endpoint. * @param applicationId The Firebase App ID for this project. * @param appCheckToken The App Check Token for this client. * @param authToken The Auth Token for this client. * @param transportSessionId Optional transportSessionId if this is connecting * to an existing transport session * @param lastSessionId Optional lastSessionId if there was a previous * connection */ constructor(connId, repoInfo, applicationId, appCheckToken, authToken, transportSessionId, lastSessionId) { this.connId = connId; this.applicationId = applicationId; this.appCheckToken = appCheckToken; this.authToken = authToken; this.keepaliveTimer = null; this.frames = null; this.totalFrames = 0; this.bytesSent = 0; this.bytesReceived = 0; this.log_ = logWrapper(this.connId); this.stats_ = statsManagerGetCollection(repoInfo); this.connURL = WebSocketConnection.connectionURL_(repoInfo, transportSessionId, lastSessionId, appCheckToken, applicationId); this.nodeAdmin = repoInfo.nodeAdmin; } /** * @param repoInfo - The info for the websocket endpoint. * @param transportSessionId - Optional transportSessionId if this is connecting to an existing transport * session * @param lastSessionId - Optional lastSessionId if there was a previous connection * @returns connection url */ static connectionURL_(repoInfo, transportSessionId, lastSessionId, appCheckToken, applicationId) { const urlParams = {}; urlParams[VERSION_PARAM] = PROTOCOL_VERSION; if (!isNodeSdk() && typeof location !== 'undefined' && location.hostname && FORGE_DOMAIN_RE.test(location.hostname)) { urlParams[REFERER_PARAM] = FORGE_REF; } if (transportSessionId) { urlParams[TRANSPORT_SESSION_PARAM] = transportSessionId; } if (lastSessionId) { urlParams[LAST_SESSION_PARAM] = lastSessionId; } if (appCheckToken) { urlParams[APP_CHECK_TOKEN_PARAM] = appCheckToken; } if (applicationId) { urlParams[APPLICATION_ID_PARAM] = applicationId; } return repoInfoConnectionURL(repoInfo, WEBSOCKET, urlParams); } /** * @param onMessage - Callback when messages arrive * @param onDisconnect - Callback with connection lost. */ open(onMessage, onDisconnect) { this.onDisconnect = onDisconnect; this.onMessage = onMessage; this.log_('Websocket connecting to ' + this.connURL); this.everConnected_ = false; // Assume failure until proven otherwise. PersistentStorage.set('previous_websocket_failure', true); try { let options; if (isNodeSdk()) { const device = this.nodeAdmin ? 'AdminNode' : 'Node'; // UA Format: Firebase//// options = { headers: { 'User-Agent': `Firebase/${PROTOCOL_VERSION}/${SDK_VERSION}/${process.platform}/${device}`, 'X-Firebase-GMPID': this.applicationId || '' } }; // If using Node with admin creds, AppCheck-related checks are unnecessary. // Note that we send the credentials here even if they aren't admin credentials, which is // not a problem. // Note that this header is just used to bypass appcheck, and the token should still be sent // through the websocket connection once it is established. if (this.authToken) { options.headers['Authorization'] = `Bearer ${this.authToken}`; } if (this.appCheckToken) { options.headers['X-Firebase-AppCheck'] = this.appCheckToken; } // Plumb appropriate http_proxy environment variable into faye-websocket if it exists. const env = process['env']; const proxy = this.connURL.indexOf('wss://') === 0 ? env['HTTPS_PROXY'] || env['https_proxy'] : env['HTTP_PROXY'] || env['http_proxy']; if (proxy) { options['proxy'] = { origin: proxy }; } } this.mySock = new WebSocketImpl(this.connURL, [], options); } catch (e) { this.log_('Error instantiating WebSocket.'); const error = e.message || e.data; if (error) { this.log_(error); } this.onClosed_(); return; } this.mySock.onopen = () => { this.log_('Websocket connected.'); this.everConnected_ = true; }; this.mySock.onclose = () => { this.log_('Websocket connection was disconnected.'); this.mySock = null; this.onClosed_(); }; this.mySock.onmessage = m => { this.handleIncomingFrame(m); }; this.mySock.onerror = e => { this.log_('WebSocket error. Closing connection.'); // eslint-disable-next-line @typescript-eslint/no-explicit-any const error = e.message || e.data; if (error) { this.log_(error); } this.onClosed_(); }; } /** * No-op for websockets, we don't need to do anything once the connection is confirmed as open */ start() { } static forceDisallow() { WebSocketConnection.forceDisallow_ = true; } static isAvailable() { let isOldAndroid = false; if (typeof navigator !== 'undefined' && navigator.userAgent) { const oldAndroidRegex = /Android ([0-9]{0,}\.[0-9]{0,})/; const oldAndroidMatch = navigator.userAgent.match(oldAndroidRegex); if (oldAndroidMatch && oldAndroidMatch.length > 1) { if (parseFloat(oldAndroidMatch[1]) < 4.4) { isOldAndroid = true; } } } return (!isOldAndroid && WebSocketImpl !== null && !WebSocketConnection.forceDisallow_); } /** * Returns true if we previously failed to connect with this transport. */ static previouslyFailed() { // If our persistent storage is actually only in-memory storage, // we default to assuming that it previously failed to be safe. return (PersistentStorage.isInMemoryStorage || PersistentStorage.get('previous_websocket_failure') === true); } markConnectionHealthy() { PersistentStorage.remove('previous_websocket_failure'); } appendFrame_(data) { this.frames.push(data); if (this.frames.length === this.totalFrames) { const fullMess = this.frames.join(''); this.frames = null; const jsonMess = jsonEval(fullMess); //handle the message this.onMessage(jsonMess); } } /** * @param frameCount - The number of frames we are expecting from the server */ handleNewFrameCount_(frameCount) { this.totalFrames = frameCount; this.frames = []; } /** * Attempts to parse a frame count out of some text. If it can't, assumes a value of 1 * @returns Any remaining data to be process, or null if there is none */ extractFrameCount_(data) { assert(this.frames === null, 'We already have a frame buffer'); // TODO: The server is only supposed to send up to 9999 frames (i.e. length <= 4), but that isn't being enforced // currently. So allowing larger frame counts (length <= 6). See https://app.asana.com/0/search/8688598998380/8237608042508 if (data.length <= 6) { const frameCount = Number(data); if (!isNaN(frameCount)) { this.handleNewFrameCount_(frameCount); return null; } } this.handleNewFrameCount_(1); return data; } /** * Process a websocket frame that has arrived from the server. * @param mess - The frame data */ handleIncomingFrame(mess) { if (this.mySock === null) { return; // Chrome apparently delivers incoming packets even after we .close() the connection sometimes. } const data = mess['data']; this.bytesReceived += data.length; this.stats_.incrementCounter('bytes_received', data.length); this.resetKeepAlive(); if (this.frames !== null) { // we're buffering this.appendFrame_(data); } else { // try to parse out a frame count, otherwise, assume 1 and process it const remainingData = this.extractFrameCount_(data); if (remainingData !== null) { this.appendFrame_(remainingData); } } } /** * Send a message to the server * @param data - The JSON object to transmit */ send(data) { this.resetKeepAlive(); const dataStr = stringify(data); this.bytesSent += dataStr.length; this.stats_.incrementCounter('bytes_sent', dataStr.length); //We can only fit a certain amount in each websocket frame, so we need to split this request //up into multiple pieces if it doesn't fit in one request. const dataSegs = splitStringBySize(dataStr, WEBSOCKET_MAX_FRAME_SIZE); //Send the length header if (dataSegs.length > 1) { this.sendString_(String(dataSegs.length)); } //Send the actual data in segments. for (let i = 0; i < dataSegs.length; i++) { this.sendString_(dataSegs[i]); } } shutdown_() { this.isClosed_ = true; if (this.keepaliveTimer) { clearInterval(this.keepaliveTimer); this.keepaliveTimer = null; } if (this.mySock) { this.mySock.close(); this.mySock = null; } } onClosed_() { if (!this.isClosed_) { this.log_('WebSocket is closing itself'); this.shutdown_(); // since this is an internal close, trigger the close listener if (this.onDisconnect) { this.onDisconnect(this.everConnected_); this.onDisconnect = null; } } } /** * External-facing close handler. * Close the websocket and kill the connection. */ close() { if (!this.isClosed_) { this.log_('WebSocket is being closed'); this.shutdown_(); } } /** * Kill the current keepalive timer and start a new one, to ensure that it always fires N seconds after * the last activity. */ resetKeepAlive() { clearInterval(this.keepaliveTimer); this.keepaliveTimer = setInterval(() => { //If there has been no websocket activity for a while, send a no-op if (this.mySock) { this.sendString_('0'); } this.resetKeepAlive(); // eslint-disable-next-line @typescript-eslint/no-explicit-any }, Math.floor(WEBSOCKET_KEEPALIVE_INTERVAL)); } /** * Send a string over the websocket. * * @param str - String to send. */ sendString_(str) { // Firefox seems to sometimes throw exceptions (NS_ERROR_UNEXPECTED) from websocket .send() // calls for some unknown reason. We treat these as an error and disconnect. // See https://app.asana.com/0/58926111402292/68021340250410 try { this.mySock.send(str); } catch (e) { this.log_('Exception thrown from WebSocket.send():', e.message || e.data, 'Closing connection.'); setTimeout(this.onClosed_.bind(this), 0); } } } /** * Number of response before we consider the connection "healthy." */ WebSocketConnection.responsesRequiredToBeHealthy = 2; /** * Time to wait for the connection te become healthy before giving up. */ WebSocketConnection.healthyTimeout = 30000; /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Currently simplistic, this class manages what transport a Connection should use at various stages of its * lifecycle. * * It starts with longpolling in a browser, and httppolling on node. It then upgrades to websockets if * they are available. */ class TransportManager { /** * @param repoInfo - Metadata around the namespace we're connecting to */ constructor(repoInfo) { this.initTransports_(repoInfo); } static get ALL_TRANSPORTS() { return [BrowserPollConnection, WebSocketConnection]; } /** * Returns whether transport has been selected to ensure WebSocketConnection or BrowserPollConnection are not called after * TransportManager has already set up transports_ */ static get IS_TRANSPORT_INITIALIZED() { return this.globalTransportInitialized_; } initTransports_(repoInfo) { const isWebSocketsAvailable = WebSocketConnection && WebSocketConnection['isAvailable'](); let isSkipPollConnection = isWebSocketsAvailable && !WebSocketConnection.previouslyFailed(); if (repoInfo.webSocketOnly) { if (!isWebSocketsAvailable) { warn("wss:// URL used, but browser isn't known to support websockets. Trying anyway."); } isSkipPollConnection = true; } if (isSkipPollConnection) { this.transports_ = [WebSocketConnection]; } else { const transports = (this.transports_ = []); for (const transport of TransportManager.ALL_TRANSPORTS) { if (transport && transport['isAvailable']()) { transports.push(transport); } } TransportManager.globalTransportInitialized_ = true; } } /** * @returns The constructor for the initial transport to use */ initialTransport() { if (this.transports_.length > 0) { return this.transports_[0]; } else { throw new Error('No transports available'); } } /** * @returns The constructor for the next transport, or null */ upgradeTransport() { if (this.transports_.length > 1) { return this.transports_[1]; } else { return null; } } } // Keeps track of whether the TransportManager has already chosen a transport to use TransportManager.globalTransportInitialized_ = false; /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ // Abort upgrade attempt if it takes longer than 60s. const UPGRADE_TIMEOUT = 60000; // For some transports (WebSockets), we need to "validate" the transport by exchanging a few requests and responses. // If we haven't sent enough requests within 5s, we'll start sending noop ping requests. const DELAY_BEFORE_SENDING_EXTRA_REQUESTS = 5000; // If the initial data sent triggers a lot of bandwidth (i.e. it's a large put or a listen for a large amount of data) // then we may not be able to exchange our ping/pong requests within the healthy timeout. So if we reach the timeout // but we've sent/received enough bytes, we don't cancel the connection. const BYTES_SENT_HEALTHY_OVERRIDE = 10 * 1024; const BYTES_RECEIVED_HEALTHY_OVERRIDE = 100 * 1024; const MESSAGE_TYPE = 't'; const MESSAGE_DATA = 'd'; const CONTROL_SHUTDOWN = 's'; const CONTROL_RESET = 'r'; const CONTROL_ERROR = 'e'; const CONTROL_PONG = 'o'; const SWITCH_ACK = 'a'; const END_TRANSMISSION = 'n'; const PING = 'p'; const SERVER_HELLO = 'h'; /** * Creates a new real-time connection to the server using whichever method works * best in the current browser. */ class Connection { /** * @param id - an id for this connection * @param repoInfo_ - the info for the endpoint to connect to * @param applicationId_ - the Firebase App ID for this project * @param appCheckToken_ - The App Check Token for this device. * @param authToken_ - The auth token for this session. * @param onMessage_ - the callback to be triggered when a server-push message arrives * @param onReady_ - the callback to be triggered when this connection is ready to send messages. * @param onDisconnect_ - the callback to be triggered when a connection was lost * @param onKill_ - the callback to be triggered when this connection has permanently shut down. * @param lastSessionId - last session id in persistent connection. is used to clean up old session in real-time server */ constructor(id, repoInfo_, applicationId_, appCheckToken_, authToken_, onMessage_, onReady_, onDisconnect_, onKill_, lastSessionId) { this.id = id; this.repoInfo_ = repoInfo_; this.applicationId_ = applicationId_; this.appCheckToken_ = appCheckToken_; this.authToken_ = authToken_; this.onMessage_ = onMessage_; this.onReady_ = onReady_; this.onDisconnect_ = onDisconnect_; this.onKill_ = onKill_; this.lastSessionId = lastSessionId; this.connectionCount = 0; this.pendingDataMessages = []; this.state_ = 0 /* RealtimeState.CONNECTING */; this.log_ = logWrapper('c:' + this.id + ':'); this.transportManager_ = new TransportManager(repoInfo_); this.log_('Connection created'); this.start_(); } /** * Starts a connection attempt */ start_() { const conn = this.transportManager_.initialTransport(); this.conn_ = new conn(this.nextTransportId_(), this.repoInfo_, this.applicationId_, this.appCheckToken_, this.authToken_, null, this.lastSessionId); // For certain transports (WebSockets), we need to send and receive several messages back and forth before we // can consider the transport healthy. this.primaryResponsesRequired_ = conn['responsesRequiredToBeHealthy'] || 0; const onMessageReceived = this.connReceiver_(this.conn_); const onConnectionLost = this.disconnReceiver_(this.conn_); this.tx_ = this.conn_; this.rx_ = this.conn_; this.secondaryConn_ = null; this.isHealthy_ = false; /* * Firefox doesn't like when code from one iframe tries to create another iframe by way of the parent frame. * This can occur in the case of a redirect, i.e. we guessed wrong on what server to connect to and received a reset. * Somehow, setTimeout seems to make this ok. That doesn't make sense from a security perspective, since you should * still have the context of your originating frame. */ setTimeout(() => { // this.conn_ gets set to null in some of the tests. Check to make sure it still exists before using it this.conn_ && this.conn_.open(onMessageReceived, onConnectionLost); }, Math.floor(0)); const healthyTimeoutMS = conn['healthyTimeout'] || 0; if (healthyTimeoutMS > 0) { this.healthyTimeout_ = setTimeoutNonBlocking(() => { this.healthyTimeout_ = null; if (!this.isHealthy_) { if (this.conn_ && this.conn_.bytesReceived > BYTES_RECEIVED_HEALTHY_OVERRIDE) { this.log_('Connection exceeded healthy timeout but has received ' + this.conn_.bytesReceived + ' bytes. Marking connection healthy.'); this.isHealthy_ = true; this.conn_.markConnectionHealthy(); } else if (this.conn_ && this.conn_.bytesSent > BYTES_SENT_HEALTHY_OVERRIDE) { this.log_('Connection exceeded healthy timeout but has sent ' + this.conn_.bytesSent + ' bytes. Leaving connection alive.'); // NOTE: We don't want to mark it healthy, since we have no guarantee that the bytes have made it to // the server. } else { this.log_('Closing unhealthy connection after timeout.'); this.close(); } } // eslint-disable-next-line @typescript-eslint/no-explicit-any }, Math.floor(healthyTimeoutMS)); } } nextTransportId_() { return 'c:' + this.id + ':' + this.connectionCount++; } disconnReceiver_(conn) { return everConnected => { if (conn === this.conn_) { this.onConnectionLost_(everConnected); } else if (conn === this.secondaryConn_) { this.log_('Secondary connection lost.'); this.onSecondaryConnectionLost_(); } else { this.log_('closing an old connection'); } }; } connReceiver_(conn) { return (message) => { if (this.state_ !== 2 /* RealtimeState.DISCONNECTED */) { if (conn === this.rx_) { this.onPrimaryMessageReceived_(message); } else if (conn === this.secondaryConn_) { this.onSecondaryMessageReceived_(message); } else { this.log_('message on old connection'); } } }; } /** * @param dataMsg - An arbitrary data message to be sent to the server */ sendRequest(dataMsg) { // wrap in a data message envelope and send it on const msg = { t: 'd', d: dataMsg }; this.sendData_(msg); } tryCleanupConnection() { if (this.tx_ === this.secondaryConn_ && this.rx_ === this.secondaryConn_) { this.log_('cleaning up and promoting a connection: ' + this.secondaryConn_.connId); this.conn_ = this.secondaryConn_; this.secondaryConn_ = null; // the server will shutdown the old connection } } onSecondaryControl_(controlData) { if (MESSAGE_TYPE in controlData) { const cmd = controlData[MESSAGE_TYPE]; if (cmd === SWITCH_ACK) { this.upgradeIfSecondaryHealthy_(); } else if (cmd === CONTROL_RESET) { // Most likely the session wasn't valid. Abandon the switch attempt this.log_('Got a reset on secondary, closing it'); this.secondaryConn_.close(); // If we were already using this connection for something, than we need to fully close if (this.tx_ === this.secondaryConn_ || this.rx_ === this.secondaryConn_) { this.close(); } } else if (cmd === CONTROL_PONG) { this.log_('got pong on secondary.'); this.secondaryResponsesRequired_--; this.upgradeIfSecondaryHealthy_(); } } } onSecondaryMessageReceived_(parsedData) { const layer = requireKey('t', parsedData); const data = requireKey('d', parsedData); if (layer === 'c') { this.onSecondaryControl_(data); } else if (layer === 'd') { // got a data message, but we're still second connection. Need to buffer it up this.pendingDataMessages.push(data); } else { throw new Error('Unknown protocol layer: ' + layer); } } upgradeIfSecondaryHealthy_() { if (this.secondaryResponsesRequired_ <= 0) { this.log_('Secondary connection is healthy.'); this.isHealthy_ = true; this.secondaryConn_.markConnectionHealthy(); this.proceedWithUpgrade_(); } else { // Send a ping to make sure the connection is healthy. this.log_('sending ping on secondary.'); this.secondaryConn_.send({ t: 'c', d: { t: PING, d: {} } }); } } proceedWithUpgrade_() { // tell this connection to consider itself open this.secondaryConn_.start(); // send ack this.log_('sending client ack on secondary'); this.secondaryConn_.send({ t: 'c', d: { t: SWITCH_ACK, d: {} } }); // send end packet on primary transport, switch to sending on this one // can receive on this one, buffer responses until end received on primary transport this.log_('Ending transmission on primary'); this.conn_.send({ t: 'c', d: { t: END_TRANSMISSION, d: {} } }); this.tx_ = this.secondaryConn_; this.tryCleanupConnection(); } onPrimaryMessageReceived_(parsedData) { // Must refer to parsedData properties in quotes, so closure doesn't touch them. const layer = requireKey('t', parsedData); const data = requireKey('d', parsedData); if (layer === 'c') { this.onControl_(data); } else if (layer === 'd') { this.onDataMessage_(data); } } onDataMessage_(message) { this.onPrimaryResponse_(); // We don't do anything with data messages, just kick them up a level this.onMessage_(message); } onPrimaryResponse_() { if (!this.isHealthy_) { this.primaryResponsesRequired_--; if (this.primaryResponsesRequired_ <= 0) { this.log_('Primary connection is healthy.'); this.isHealthy_ = true; this.conn_.markConnectionHealthy(); } } } onControl_(controlData) { const cmd = requireKey(MESSAGE_TYPE, controlData); if (MESSAGE_DATA in controlData) { const payload = controlData[MESSAGE_DATA]; if (cmd === SERVER_HELLO) { this.onHandshake_(payload); } else if (cmd === END_TRANSMISSION) { this.log_('recvd end transmission on primary'); this.rx_ = this.secondaryConn_; for (let i = 0; i < this.pendingDataMessages.length; ++i) { this.onDataMessage_(this.pendingDataMessages[i]); } this.pendingDataMessages = []; this.tryCleanupConnection(); } else if (cmd === CONTROL_SHUTDOWN) { // This was previously the 'onKill' callback passed to the lower-level connection // payload in this case is the reason for the shutdown. Generally a human-readable error this.onConnectionShutdown_(payload); } else if (cmd === CONTROL_RESET) { // payload in this case is the host we should contact this.onReset_(payload); } else if (cmd === CONTROL_ERROR) { error('Server Error: ' + payload); } else if (cmd === CONTROL_PONG) { this.log_('got pong on primary.'); this.onPrimaryResponse_(); this.sendPingOnPrimaryIfNecessary_(); } else { error('Unknown control packet command: ' + cmd); } } } /** * @param handshake - The handshake data returned from the server */ onHandshake_(handshake) { const timestamp = handshake.ts; const version = handshake.v; const host = handshake.h; this.sessionId = handshake.s; this.repoInfo_.host = host; // if we've already closed the connection, then don't bother trying to progress further if (this.state_ === 0 /* RealtimeState.CONNECTING */) { this.conn_.start(); this.onConnectionEstablished_(this.conn_, timestamp); if (PROTOCOL_VERSION !== version) { warn('Protocol version mismatch detected'); } // TODO: do we want to upgrade? when? maybe a delay? this.tryStartUpgrade_(); } } tryStartUpgrade_() { const conn = this.transportManager_.upgradeTransport(); if (conn) { this.startUpgrade_(conn); } } startUpgrade_(conn) { this.secondaryConn_ = new conn(this.nextTransportId_(), this.repoInfo_, this.applicationId_, this.appCheckToken_, this.authToken_, this.sessionId); // For certain transports (WebSockets), we need to send and receive several messages back and forth before we // can consider the transport healthy. this.secondaryResponsesRequired_ = conn['responsesRequiredToBeHealthy'] || 0; const onMessage = this.connReceiver_(this.secondaryConn_); const onDisconnect = this.disconnReceiver_(this.secondaryConn_); this.secondaryConn_.open(onMessage, onDisconnect); // If we haven't successfully upgraded after UPGRADE_TIMEOUT, give up and kill the secondary. setTimeoutNonBlocking(() => { if (this.secondaryConn_) { this.log_('Timed out trying to upgrade.'); this.secondaryConn_.close(); } }, Math.floor(UPGRADE_TIMEOUT)); } onReset_(host) { this.log_('Reset packet received. New host: ' + host); this.repoInfo_.host = host; // TODO: if we're already "connected", we need to trigger a disconnect at the next layer up. // We don't currently support resets after the connection has already been established if (this.state_ === 1 /* RealtimeState.CONNECTED */) { this.close(); } else { // Close whatever connections we have open and start again. this.closeConnections_(); this.start_(); } } onConnectionEstablished_(conn, timestamp) { this.log_('Realtime connection established.'); this.conn_ = conn; this.state_ = 1 /* RealtimeState.CONNECTED */; if (this.onReady_) { this.onReady_(timestamp, this.sessionId); this.onReady_ = null; } // If after 5 seconds we haven't sent enough requests to the server to get the connection healthy, // send some pings. if (this.primaryResponsesRequired_ === 0) { this.log_('Primary connection is healthy.'); this.isHealthy_ = true; } else { setTimeoutNonBlocking(() => { this.sendPingOnPrimaryIfNecessary_(); }, Math.floor(DELAY_BEFORE_SENDING_EXTRA_REQUESTS)); } } sendPingOnPrimaryIfNecessary_() { // If the connection isn't considered healthy yet, we'll send a noop ping packet request. if (!this.isHealthy_ && this.state_ === 1 /* RealtimeState.CONNECTED */) { this.log_('sending ping on primary.'); this.sendData_({ t: 'c', d: { t: PING, d: {} } }); } } onSecondaryConnectionLost_() { const conn = this.secondaryConn_; this.secondaryConn_ = null; if (this.tx_ === conn || this.rx_ === conn) { // we are relying on this connection already in some capacity. Therefore, a failure is real this.close(); } } /** * @param everConnected - Whether or not the connection ever reached a server. Used to determine if * we should flush the host cache */ onConnectionLost_(everConnected) { this.conn_ = null; // NOTE: IF you're seeing a Firefox error for this line, I think it might be because it's getting // called on window close and RealtimeState.CONNECTING is no longer defined. Just a guess. if (!everConnected && this.state_ === 0 /* RealtimeState.CONNECTING */) { this.log_('Realtime connection failed.'); // Since we failed to connect at all, clear any cached entry for this namespace in case the machine went away if (this.repoInfo_.isCacheableHost()) { PersistentStorage.remove('host:' + this.repoInfo_.host); // reset the internal host to what we would show the user, i.e. .firebaseio.com this.repoInfo_.internalHost = this.repoInfo_.host; } } else if (this.state_ === 1 /* RealtimeState.CONNECTED */) { this.log_('Realtime connection lost.'); } this.close(); } onConnectionShutdown_(reason) { this.log_('Connection shutdown command received. Shutting down...'); if (this.onKill_) { this.onKill_(reason); this.onKill_ = null; } // We intentionally don't want to fire onDisconnect (kill is a different case), // so clear the callback. this.onDisconnect_ = null; this.close(); } sendData_(data) { if (this.state_ !== 1 /* RealtimeState.CONNECTED */) { throw 'Connection is not connected'; } else { this.tx_.send(data); } } /** * Cleans up this connection, calling the appropriate callbacks */ close() { if (this.state_ !== 2 /* RealtimeState.DISCONNECTED */) { this.log_('Closing realtime connection.'); this.state_ = 2 /* RealtimeState.DISCONNECTED */; this.closeConnections_(); if (this.onDisconnect_) { this.onDisconnect_(); this.onDisconnect_ = null; } } } closeConnections_() { this.log_('Shutting down all connections'); if (this.conn_) { this.conn_.close(); this.conn_ = null; } if (this.secondaryConn_) { this.secondaryConn_.close(); this.secondaryConn_ = null; } if (this.healthyTimeout_) { clearTimeout(this.healthyTimeout_); this.healthyTimeout_ = null; } } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Interface defining the set of actions that can be performed against the Firebase server * (basically corresponds to our wire protocol). * * @interface */ class ServerActions { put(pathString, data, onComplete, hash) { } merge(pathString, data, onComplete, hash) { } /** * Refreshes the auth token for the current connection. * @param token - The authentication token */ refreshAuthToken(token) { } /** * Refreshes the app check token for the current connection. * @param token The app check token */ refreshAppCheckToken(token) { } onDisconnectPut(pathString, data, onComplete) { } onDisconnectMerge(pathString, data, onComplete) { } onDisconnectCancel(pathString, onComplete) { } reportStats(stats) { } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Base class to be used if you want to emit events. Call the constructor with * the set of allowed event names. */ class EventEmitter { constructor(allowedEvents_) { this.allowedEvents_ = allowedEvents_; this.listeners_ = {}; assert(Array.isArray(allowedEvents_) && allowedEvents_.length > 0, 'Requires a non-empty array'); } /** * To be called by derived classes to trigger events. */ trigger(eventType, ...varArgs) { if (Array.isArray(this.listeners_[eventType])) { // Clone the list, since callbacks could add/remove listeners. const listeners = [...this.listeners_[eventType]]; for (let i = 0; i < listeners.length; i++) { listeners[i].callback.apply(listeners[i].context, varArgs); } } } on(eventType, callback, context) { this.validateEventType_(eventType); this.listeners_[eventType] = this.listeners_[eventType] || []; this.listeners_[eventType].push({ callback, context }); const eventData = this.getInitialEvent(eventType); if (eventData) { callback.apply(context, eventData); } } off(eventType, callback, context) { this.validateEventType_(eventType); const listeners = this.listeners_[eventType] || []; for (let i = 0; i < listeners.length; i++) { if (listeners[i].callback === callback && (!context || context === listeners[i].context)) { listeners.splice(i, 1); return; } } } validateEventType_(eventType) { assert(this.allowedEvents_.find(et => { return et === eventType; }), 'Unknown event: ' + eventType); } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Monitors online state (as reported by window.online/offline events). * * The expectation is that this could have many false positives (thinks we are online * when we're not), but no false negatives. So we can safely use it to determine when * we definitely cannot reach the internet. */ class OnlineMonitor extends EventEmitter { constructor() { super(['online']); this.online_ = true; // We've had repeated complaints that Cordova apps can get stuck "offline", e.g. // https://forum.ionicframework.com/t/firebase-connection-is-lost-and-never-come-back/43810 // It would seem that the 'online' event does not always fire consistently. So we disable it // for Cordova. if (typeof window !== 'undefined' && typeof window.addEventListener !== 'undefined' && !isMobileCordova()) { window.addEventListener('online', () => { if (!this.online_) { this.online_ = true; this.trigger('online', true); } }, false); window.addEventListener('offline', () => { if (this.online_) { this.online_ = false; this.trigger('online', false); } }, false); } } static getInstance() { return new OnlineMonitor(); } getInitialEvent(eventType) { assert(eventType === 'online', 'Unknown event type: ' + eventType); return [this.online_]; } currentlyOnline() { return this.online_; } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** Maximum key depth. */ const MAX_PATH_DEPTH = 32; /** Maximum number of (UTF8) bytes in a Firebase path. */ const MAX_PATH_LENGTH_BYTES = 768; /** * An immutable object representing a parsed path. It's immutable so that you * can pass them around to other functions without worrying about them changing * it. */ class Path { /** * @param pathOrString - Path string to parse, or another path, or the raw * tokens array */ constructor(pathOrString, pieceNum) { if (pieceNum === void 0) { this.pieces_ = pathOrString.split('/'); // Remove empty pieces. let copyTo = 0; for (let i = 0; i < this.pieces_.length; i++) { if (this.pieces_[i].length > 0) { this.pieces_[copyTo] = this.pieces_[i]; copyTo++; } } this.pieces_.length = copyTo; this.pieceNum_ = 0; } else { this.pieces_ = pathOrString; this.pieceNum_ = pieceNum; } } toString() { let pathString = ''; for (let i = this.pieceNum_; i < this.pieces_.length; i++) { if (this.pieces_[i] !== '') { pathString += '/' + this.pieces_[i]; } } return pathString || '/'; } } function newEmptyPath() { return new Path(''); } function pathGetFront(path) { if (path.pieceNum_ >= path.pieces_.length) { return null; } return path.pieces_[path.pieceNum_]; } /** * @returns The number of segments in this path */ function pathGetLength(path) { return path.pieces_.length - path.pieceNum_; } function pathPopFront(path) { let pieceNum = path.pieceNum_; if (pieceNum < path.pieces_.length) { pieceNum++; } return new Path(path.pieces_, pieceNum); } function pathGetBack(path) { if (path.pieceNum_ < path.pieces_.length) { return path.pieces_[path.pieces_.length - 1]; } return null; } function pathToUrlEncodedString(path) { let pathString = ''; for (let i = path.pieceNum_; i < path.pieces_.length; i++) { if (path.pieces_[i] !== '') { pathString += '/' + encodeURIComponent(String(path.pieces_[i])); } } return pathString || '/'; } /** * Shallow copy of the parts of the path. * */ function pathSlice(path, begin = 0) { return path.pieces_.slice(path.pieceNum_ + begin); } function pathParent(path) { if (path.pieceNum_ >= path.pieces_.length) { return null; } const pieces = []; for (let i = path.pieceNum_; i < path.pieces_.length - 1; i++) { pieces.push(path.pieces_[i]); } return new Path(pieces, 0); } function pathChild(path, childPathObj) { const pieces = []; for (let i = path.pieceNum_; i < path.pieces_.length; i++) { pieces.push(path.pieces_[i]); } if (childPathObj instanceof Path) { for (let i = childPathObj.pieceNum_; i < childPathObj.pieces_.length; i++) { pieces.push(childPathObj.pieces_[i]); } } else { const childPieces = childPathObj.split('/'); for (let i = 0; i < childPieces.length; i++) { if (childPieces[i].length > 0) { pieces.push(childPieces[i]); } } } return new Path(pieces, 0); } /** * @returns True if there are no segments in this path */ function pathIsEmpty(path) { return path.pieceNum_ >= path.pieces_.length; } /** * @returns The path from outerPath to innerPath */ function newRelativePath(outerPath, innerPath) { const outer = pathGetFront(outerPath), inner = pathGetFront(innerPath); if (outer === null) { return innerPath; } else if (outer === inner) { return newRelativePath(pathPopFront(outerPath), pathPopFront(innerPath)); } else { throw new Error('INTERNAL ERROR: innerPath (' + innerPath + ') is not within ' + 'outerPath (' + outerPath + ')'); } } /** * @returns -1, 0, 1 if left is less, equal, or greater than the right. */ function pathCompare(left, right) { const leftKeys = pathSlice(left, 0); const rightKeys = pathSlice(right, 0); for (let i = 0; i < leftKeys.length && i < rightKeys.length; i++) { const cmp = nameCompare(leftKeys[i], rightKeys[i]); if (cmp !== 0) { return cmp; } } if (leftKeys.length === rightKeys.length) { return 0; } return leftKeys.length < rightKeys.length ? -1 : 1; } /** * @returns true if paths are the same. */ function pathEquals(path, other) { if (pathGetLength(path) !== pathGetLength(other)) { return false; } for (let i = path.pieceNum_, j = other.pieceNum_; i <= path.pieces_.length; i++, j++) { if (path.pieces_[i] !== other.pieces_[j]) { return false; } } return true; } /** * @returns True if this path is a parent of (or the same as) other */ function pathContains(path, other) { let i = path.pieceNum_; let j = other.pieceNum_; if (pathGetLength(path) > pathGetLength(other)) { return false; } while (i < path.pieces_.length) { if (path.pieces_[i] !== other.pieces_[j]) { return false; } ++i; ++j; } return true; } /** * Dynamic (mutable) path used to count path lengths. * * This class is used to efficiently check paths for valid * length (in UTF8 bytes) and depth (used in path validation). * * Throws Error exception if path is ever invalid. * * The definition of a path always begins with '/'. */ class ValidationPath { /** * @param path - Initial Path. * @param errorPrefix_ - Prefix for any error messages. */ constructor(path, errorPrefix_) { this.errorPrefix_ = errorPrefix_; this.parts_ = pathSlice(path, 0); /** Initialize to number of '/' chars needed in path. */ this.byteLength_ = Math.max(1, this.parts_.length); for (let i = 0; i < this.parts_.length; i++) { this.byteLength_ += stringLength(this.parts_[i]); } validationPathCheckValid(this); } } function validationPathPush(validationPath, child) { // Count the needed '/' if (validationPath.parts_.length > 0) { validationPath.byteLength_ += 1; } validationPath.parts_.push(child); validationPath.byteLength_ += stringLength(child); validationPathCheckValid(validationPath); } function validationPathPop(validationPath) { const last = validationPath.parts_.pop(); validationPath.byteLength_ -= stringLength(last); // Un-count the previous '/' if (validationPath.parts_.length > 0) { validationPath.byteLength_ -= 1; } } function validationPathCheckValid(validationPath) { if (validationPath.byteLength_ > MAX_PATH_LENGTH_BYTES) { throw new Error(validationPath.errorPrefix_ + 'has a key path longer than ' + MAX_PATH_LENGTH_BYTES + ' bytes (' + validationPath.byteLength_ + ').'); } if (validationPath.parts_.length > MAX_PATH_DEPTH) { throw new Error(validationPath.errorPrefix_ + 'path specified exceeds the maximum depth that can be written (' + MAX_PATH_DEPTH + ') or object contains a cycle ' + validationPathToErrorString(validationPath)); } } /** * String for use in error messages - uses '.' notation for path. */ function validationPathToErrorString(validationPath) { if (validationPath.parts_.length === 0) { return ''; } return "in property '" + validationPath.parts_.join('.') + "'"; } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ class VisibilityMonitor extends EventEmitter { constructor() { super(['visible']); let hidden; let visibilityChange; if (typeof document !== 'undefined' && typeof document.addEventListener !== 'undefined') { if (typeof document['hidden'] !== 'undefined') { // Opera 12.10 and Firefox 18 and later support visibilityChange = 'visibilitychange'; hidden = 'hidden'; } else if (typeof document['mozHidden'] !== 'undefined') { visibilityChange = 'mozvisibilitychange'; hidden = 'mozHidden'; } else if (typeof document['msHidden'] !== 'undefined') { visibilityChange = 'msvisibilitychange'; hidden = 'msHidden'; } else if (typeof document['webkitHidden'] !== 'undefined') { visibilityChange = 'webkitvisibilitychange'; hidden = 'webkitHidden'; } } // Initially, we always assume we are visible. This ensures that in browsers // without page visibility support or in cases where we are never visible // (e.g. chrome extension), we act as if we are visible, i.e. don't delay // reconnects this.visible_ = true; if (visibilityChange) { document.addEventListener(visibilityChange, () => { const visible = !document[hidden]; if (visible !== this.visible_) { this.visible_ = visible; this.trigger('visible', visible); } }, false); } } static getInstance() { return new VisibilityMonitor(); } getInitialEvent(eventType) { assert(eventType === 'visible', 'Unknown event type: ' + eventType); return [this.visible_]; } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ const RECONNECT_MIN_DELAY = 1000; const RECONNECT_MAX_DELAY_DEFAULT = 60 * 5 * 1000; // 5 minutes in milliseconds (Case: 1858) const RECONNECT_MAX_DELAY_FOR_ADMINS = 30 * 1000; // 30 seconds for admin clients (likely to be a backend server) const RECONNECT_DELAY_MULTIPLIER = 1.3; const RECONNECT_DELAY_RESET_TIMEOUT = 30000; // Reset delay back to MIN_DELAY after being connected for 30sec. const SERVER_KILL_INTERRUPT_REASON = 'server_kill'; // If auth fails repeatedly, we'll assume something is wrong and log a warning / back off. const INVALID_TOKEN_THRESHOLD = 3; /** * Firebase connection. Abstracts wire protocol and handles reconnecting. * * NOTE: All JSON objects sent to the realtime connection must have property names enclosed * in quotes to make sure the closure compiler does not minify them. */ class PersistentConnection extends ServerActions { /** * @param repoInfo_ - Data about the namespace we are connecting to * @param applicationId_ - The Firebase App ID for this project * @param onDataUpdate_ - A callback for new data from the server */ constructor(repoInfo_, applicationId_, onDataUpdate_, onConnectStatus_, onServerInfoUpdate_, authTokenProvider_, appCheckTokenProvider_, authOverride_) { super(); this.repoInfo_ = repoInfo_; this.applicationId_ = applicationId_; this.onDataUpdate_ = onDataUpdate_; this.onConnectStatus_ = onConnectStatus_; this.onServerInfoUpdate_ = onServerInfoUpdate_; this.authTokenProvider_ = authTokenProvider_; this.appCheckTokenProvider_ = appCheckTokenProvider_; this.authOverride_ = authOverride_; // Used for diagnostic logging. this.id = PersistentConnection.nextPersistentConnectionId_++; this.log_ = logWrapper('p:' + this.id + ':'); this.interruptReasons_ = {}; this.listens = new Map(); this.outstandingPuts_ = []; this.outstandingGets_ = []; this.outstandingPutCount_ = 0; this.outstandingGetCount_ = 0; this.onDisconnectRequestQueue_ = []; this.connected_ = false; this.reconnectDelay_ = RECONNECT_MIN_DELAY; this.maxReconnectDelay_ = RECONNECT_MAX_DELAY_DEFAULT; this.securityDebugCallback_ = null; this.lastSessionId = null; this.establishConnectionTimer_ = null; this.visible_ = false; // Before we get connected, we keep a queue of pending messages to send. this.requestCBHash_ = {}; this.requestNumber_ = 0; this.realtime_ = null; this.authToken_ = null; this.appCheckToken_ = null; this.forceTokenRefresh_ = false; this.invalidAuthTokenCount_ = 0; this.invalidAppCheckTokenCount_ = 0; this.firstConnection_ = true; this.lastConnectionAttemptTime_ = null; this.lastConnectionEstablishedTime_ = null; if (authOverride_ && !isNodeSdk()) { throw new Error('Auth override specified in options, but not supported on non Node.js platforms'); } VisibilityMonitor.getInstance().on('visible', this.onVisible_, this); if (repoInfo_.host.indexOf('fblocal') === -1) { OnlineMonitor.getInstance().on('online', this.onOnline_, this); } } sendRequest(action, body, onResponse) { const curReqNum = ++this.requestNumber_; const msg = { r: curReqNum, a: action, b: body }; this.log_(stringify(msg)); assert(this.connected_, "sendRequest call when we're not connected not allowed."); this.realtime_.sendRequest(msg); if (onResponse) { this.requestCBHash_[curReqNum] = onResponse; } } get(query) { this.initConnection_(); const deferred = new Deferred(); const request = { p: query._path.toString(), q: query._queryObject }; const outstandingGet = { action: 'g', request, onComplete: (message) => { const payload = message['d']; if (message['s'] === 'ok') { deferred.resolve(payload); } else { deferred.reject(payload); } } }; this.outstandingGets_.push(outstandingGet); this.outstandingGetCount_++; const index = this.outstandingGets_.length - 1; if (this.connected_) { this.sendGet_(index); } return deferred.promise; } listen(query, currentHashFn, tag, onComplete) { this.initConnection_(); const queryId = query._queryIdentifier; const pathString = query._path.toString(); this.log_('Listen called for ' + pathString + ' ' + queryId); if (!this.listens.has(pathString)) { this.listens.set(pathString, new Map()); } assert(query._queryParams.isDefault() || !query._queryParams.loadsAllData(), 'listen() called for non-default but complete query'); assert(!this.listens.get(pathString).has(queryId), `listen() called twice for same path/queryId.`); const listenSpec = { onComplete, hashFn: currentHashFn, query, tag }; this.listens.get(pathString).set(queryId, listenSpec); if (this.connected_) { this.sendListen_(listenSpec); } } sendGet_(index) { const get = this.outstandingGets_[index]; this.sendRequest('g', get.request, (message) => { delete this.outstandingGets_[index]; this.outstandingGetCount_--; if (this.outstandingGetCount_ === 0) { this.outstandingGets_ = []; } if (get.onComplete) { get.onComplete(message); } }); } sendListen_(listenSpec) { const query = listenSpec.query; const pathString = query._path.toString(); const queryId = query._queryIdentifier; this.log_('Listen on ' + pathString + ' for ' + queryId); const req = { /*path*/ p: pathString }; const action = 'q'; // Only bother to send query if it's non-default. if (listenSpec.tag) { req['q'] = query._queryObject; req['t'] = listenSpec.tag; } req[ /*hash*/'h'] = listenSpec.hashFn(); this.sendRequest(action, req, (message) => { const payload = message[ /*data*/'d']; const status = message[ /*status*/'s']; // print warnings in any case... PersistentConnection.warnOnListenWarnings_(payload, query); const currentListenSpec = this.listens.get(pathString) && this.listens.get(pathString).get(queryId); // only trigger actions if the listen hasn't been removed and readded if (currentListenSpec === listenSpec) { this.log_('listen response', message); if (status !== 'ok') { this.removeListen_(pathString, queryId); } if (listenSpec.onComplete) { listenSpec.onComplete(status, payload); } } }); } static warnOnListenWarnings_(payload, query) { if (payload && typeof payload === 'object' && contains(payload, 'w')) { // eslint-disable-next-line @typescript-eslint/no-explicit-any const warnings = safeGet(payload, 'w'); if (Array.isArray(warnings) && ~warnings.indexOf('no_index')) { const indexSpec = '".indexOn": "' + query._queryParams.getIndex().toString() + '"'; const indexPath = query._path.toString(); warn(`Using an unspecified index. Your data will be downloaded and ` + `filtered on the client. Consider adding ${indexSpec} at ` + `${indexPath} to your security rules for better performance.`); } } } refreshAuthToken(token) { this.authToken_ = token; this.log_('Auth token refreshed'); if (this.authToken_) { this.tryAuth(); } else { //If we're connected we want to let the server know to unauthenticate us. If we're not connected, simply delete //the credential so we dont become authenticated next time we connect. if (this.connected_) { this.sendRequest('unauth', {}, () => { }); } } this.reduceReconnectDelayIfAdminCredential_(token); } reduceReconnectDelayIfAdminCredential_(credential) { // NOTE: This isn't intended to be bulletproof (a malicious developer can always just modify the client). // Additionally, we don't bother resetting the max delay back to the default if auth fails / expires. const isFirebaseSecret = credential && credential.length === 40; if (isFirebaseSecret || isAdmin(credential)) { this.log_('Admin auth credential detected. Reducing max reconnect time.'); this.maxReconnectDelay_ = RECONNECT_MAX_DELAY_FOR_ADMINS; } } refreshAppCheckToken(token) { this.appCheckToken_ = token; this.log_('App check token refreshed'); if (this.appCheckToken_) { this.tryAppCheck(); } else { //If we're connected we want to let the server know to unauthenticate us. //If we're not connected, simply delete the credential so we dont become // authenticated next time we connect. if (this.connected_) { this.sendRequest('unappeck', {}, () => { }); } } } /** * Attempts to authenticate with the given credentials. If the authentication attempt fails, it's triggered like * a auth revoked (the connection is closed). */ tryAuth() { if (this.connected_ && this.authToken_) { const token = this.authToken_; const authMethod = isValidFormat(token) ? 'auth' : 'gauth'; const requestData = { cred: token }; if (this.authOverride_ === null) { requestData['noauth'] = true; } else if (typeof this.authOverride_ === 'object') { requestData['authvar'] = this.authOverride_; } this.sendRequest(authMethod, requestData, (res) => { const status = res[ /*status*/'s']; const data = res[ /*data*/'d'] || 'error'; if (this.authToken_ === token) { if (status === 'ok') { this.invalidAuthTokenCount_ = 0; } else { // Triggers reconnect and force refresh for auth token this.onAuthRevoked_(status, data); } } }); } } /** * Attempts to authenticate with the given token. If the authentication * attempt fails, it's triggered like the token was revoked (the connection is * closed). */ tryAppCheck() { if (this.connected_ && this.appCheckToken_) { this.sendRequest('appcheck', { 'token': this.appCheckToken_ }, (res) => { const status = res[ /*status*/'s']; const data = res[ /*data*/'d'] || 'error'; if (status === 'ok') { this.invalidAppCheckTokenCount_ = 0; } else { this.onAppCheckRevoked_(status, data); } }); } } /** * @inheritDoc */ unlisten(query, tag) { const pathString = query._path.toString(); const queryId = query._queryIdentifier; this.log_('Unlisten called for ' + pathString + ' ' + queryId); assert(query._queryParams.isDefault() || !query._queryParams.loadsAllData(), 'unlisten() called for non-default but complete query'); const listen = this.removeListen_(pathString, queryId); if (listen && this.connected_) { this.sendUnlisten_(pathString, queryId, query._queryObject, tag); } } sendUnlisten_(pathString, queryId, queryObj, tag) { this.log_('Unlisten on ' + pathString + ' for ' + queryId); const req = { /*path*/ p: pathString }; const action = 'n'; // Only bother sending queryId if it's non-default. if (tag) { req['q'] = queryObj; req['t'] = tag; } this.sendRequest(action, req); } onDisconnectPut(pathString, data, onComplete) { this.initConnection_(); if (this.connected_) { this.sendOnDisconnect_('o', pathString, data, onComplete); } else { this.onDisconnectRequestQueue_.push({ pathString, action: 'o', data, onComplete }); } } onDisconnectMerge(pathString, data, onComplete) { this.initConnection_(); if (this.connected_) { this.sendOnDisconnect_('om', pathString, data, onComplete); } else { this.onDisconnectRequestQueue_.push({ pathString, action: 'om', data, onComplete }); } } onDisconnectCancel(pathString, onComplete) { this.initConnection_(); if (this.connected_) { this.sendOnDisconnect_('oc', pathString, null, onComplete); } else { this.onDisconnectRequestQueue_.push({ pathString, action: 'oc', data: null, onComplete }); } } sendOnDisconnect_(action, pathString, data, onComplete) { const request = { /*path*/ p: pathString, /*data*/ d: data }; this.log_('onDisconnect ' + action, request); this.sendRequest(action, request, (response) => { if (onComplete) { setTimeout(() => { onComplete(response[ /*status*/'s'], response[ /* data */'d']); }, Math.floor(0)); } }); } put(pathString, data, onComplete, hash) { this.putInternal('p', pathString, data, onComplete, hash); } merge(pathString, data, onComplete, hash) { this.putInternal('m', pathString, data, onComplete, hash); } putInternal(action, pathString, data, onComplete, hash) { this.initConnection_(); const request = { /*path*/ p: pathString, /*data*/ d: data }; if (hash !== undefined) { request[ /*hash*/'h'] = hash; } // TODO: Only keep track of the most recent put for a given path? this.outstandingPuts_.push({ action, request, onComplete }); this.outstandingPutCount_++; const index = this.outstandingPuts_.length - 1; if (this.connected_) { this.sendPut_(index); } else { this.log_('Buffering put: ' + pathString); } } sendPut_(index) { const action = this.outstandingPuts_[index].action; const request = this.outstandingPuts_[index].request; const onComplete = this.outstandingPuts_[index].onComplete; this.outstandingPuts_[index].queued = this.connected_; this.sendRequest(action, request, (message) => { this.log_(action + ' response', message); delete this.outstandingPuts_[index]; this.outstandingPutCount_--; // Clean up array occasionally. if (this.outstandingPutCount_ === 0) { this.outstandingPuts_ = []; } if (onComplete) { onComplete(message[ /*status*/'s'], message[ /* data */'d']); } }); } reportStats(stats) { // If we're not connected, we just drop the stats. if (this.connected_) { const request = { /*counters*/ c: stats }; this.log_('reportStats', request); this.sendRequest(/*stats*/ 's', request, result => { const status = result[ /*status*/'s']; if (status !== 'ok') { const errorReason = result[ /* data */'d']; this.log_('reportStats', 'Error sending stats: ' + errorReason); } }); } } onDataMessage_(message) { if ('r' in message) { // this is a response this.log_('from server: ' + stringify(message)); const reqNum = message['r']; const onResponse = this.requestCBHash_[reqNum]; if (onResponse) { delete this.requestCBHash_[reqNum]; onResponse(message[ /*body*/'b']); } } else if ('error' in message) { throw 'A server-side error has occurred: ' + message['error']; } else if ('a' in message) { // a and b are action and body, respectively this.onDataPush_(message['a'], message['b']); } } onDataPush_(action, body) { this.log_('handleServerMessage', action, body); if (action === 'd') { this.onDataUpdate_(body[ /*path*/'p'], body[ /*data*/'d'], /*isMerge*/ false, body['t']); } else if (action === 'm') { this.onDataUpdate_(body[ /*path*/'p'], body[ /*data*/'d'], /*isMerge=*/ true, body['t']); } else if (action === 'c') { this.onListenRevoked_(body[ /*path*/'p'], body[ /*query*/'q']); } else if (action === 'ac') { this.onAuthRevoked_(body[ /*status code*/'s'], body[ /* explanation */'d']); } else if (action === 'apc') { this.onAppCheckRevoked_(body[ /*status code*/'s'], body[ /* explanation */'d']); } else if (action === 'sd') { this.onSecurityDebugPacket_(body); } else { error('Unrecognized action received from server: ' + stringify(action) + '\nAre you using the latest client?'); } } onReady_(timestamp, sessionId) { this.log_('connection ready'); this.connected_ = true; this.lastConnectionEstablishedTime_ = new Date().getTime(); this.handleTimestamp_(timestamp); this.lastSessionId = sessionId; if (this.firstConnection_) { this.sendConnectStats_(); } this.restoreState_(); this.firstConnection_ = false; this.onConnectStatus_(true); } scheduleConnect_(timeout) { assert(!this.realtime_, "Scheduling a connect when we're already connected/ing?"); if (this.establishConnectionTimer_) { clearTimeout(this.establishConnectionTimer_); } // NOTE: Even when timeout is 0, it's important to do a setTimeout to work around an infuriating "Security Error" in // Firefox when trying to write to our long-polling iframe in some scenarios (e.g. Forge or our unit tests). this.establishConnectionTimer_ = setTimeout(() => { this.establishConnectionTimer_ = null; this.establishConnection_(); // eslint-disable-next-line @typescript-eslint/no-explicit-any }, Math.floor(timeout)); } initConnection_() { if (!this.realtime_ && this.firstConnection_) { this.scheduleConnect_(0); } } onVisible_(visible) { // NOTE: Tabbing away and back to a window will defeat our reconnect backoff, but I think that's fine. if (visible && !this.visible_ && this.reconnectDelay_ === this.maxReconnectDelay_) { this.log_('Window became visible. Reducing delay.'); this.reconnectDelay_ = RECONNECT_MIN_DELAY; if (!this.realtime_) { this.scheduleConnect_(0); } } this.visible_ = visible; } onOnline_(online) { if (online) { this.log_('Browser went online.'); this.reconnectDelay_ = RECONNECT_MIN_DELAY; if (!this.realtime_) { this.scheduleConnect_(0); } } else { this.log_('Browser went offline. Killing connection.'); if (this.realtime_) { this.realtime_.close(); } } } onRealtimeDisconnect_() { this.log_('data client disconnected'); this.connected_ = false; this.realtime_ = null; // Since we don't know if our sent transactions succeeded or not, we need to cancel them. this.cancelSentTransactions_(); // Clear out the pending requests. this.requestCBHash_ = {}; if (this.shouldReconnect_()) { if (!this.visible_) { this.log_("Window isn't visible. Delaying reconnect."); this.reconnectDelay_ = this.maxReconnectDelay_; this.lastConnectionAttemptTime_ = new Date().getTime(); } else if (this.lastConnectionEstablishedTime_) { // If we've been connected long enough, reset reconnect delay to minimum. const timeSinceLastConnectSucceeded = new Date().getTime() - this.lastConnectionEstablishedTime_; if (timeSinceLastConnectSucceeded > RECONNECT_DELAY_RESET_TIMEOUT) { this.reconnectDelay_ = RECONNECT_MIN_DELAY; } this.lastConnectionEstablishedTime_ = null; } const timeSinceLastConnectAttempt = new Date().getTime() - this.lastConnectionAttemptTime_; let reconnectDelay = Math.max(0, this.reconnectDelay_ - timeSinceLastConnectAttempt); reconnectDelay = Math.random() * reconnectDelay; this.log_('Trying to reconnect in ' + reconnectDelay + 'ms'); this.scheduleConnect_(reconnectDelay); // Adjust reconnect delay for next time. this.reconnectDelay_ = Math.min(this.maxReconnectDelay_, this.reconnectDelay_ * RECONNECT_DELAY_MULTIPLIER); } this.onConnectStatus_(false); } async establishConnection_() { if (this.shouldReconnect_()) { this.log_('Making a connection attempt'); this.lastConnectionAttemptTime_ = new Date().getTime(); this.lastConnectionEstablishedTime_ = null; const onDataMessage = this.onDataMessage_.bind(this); const onReady = this.onReady_.bind(this); const onDisconnect = this.onRealtimeDisconnect_.bind(this); const connId = this.id + ':' + PersistentConnection.nextConnectionId_++; const lastSessionId = this.lastSessionId; let canceled = false; let connection = null; const closeFn = function () { if (connection) { connection.close(); } else { canceled = true; onDisconnect(); } }; const sendRequestFn = function (msg) { assert(connection, "sendRequest call when we're not connected not allowed."); connection.sendRequest(msg); }; this.realtime_ = { close: closeFn, sendRequest: sendRequestFn }; const forceRefresh = this.forceTokenRefresh_; this.forceTokenRefresh_ = false; try { // First fetch auth and app check token, and establish connection after // fetching the token was successful const [authToken, appCheckToken] = await Promise.all([ this.authTokenProvider_.getToken(forceRefresh), this.appCheckTokenProvider_.getToken(forceRefresh) ]); if (!canceled) { log('getToken() completed. Creating connection.'); this.authToken_ = authToken && authToken.accessToken; this.appCheckToken_ = appCheckToken && appCheckToken.token; connection = new Connection(connId, this.repoInfo_, this.applicationId_, this.appCheckToken_, this.authToken_, onDataMessage, onReady, onDisconnect, /* onKill= */ reason => { warn(reason + ' (' + this.repoInfo_.toString() + ')'); this.interrupt(SERVER_KILL_INTERRUPT_REASON); }, lastSessionId); } else { log('getToken() completed but was canceled'); } } catch (error) { this.log_('Failed to get token: ' + error); if (!canceled) { if (this.repoInfo_.nodeAdmin) { // This may be a critical error for the Admin Node.js SDK, so log a warning. // But getToken() may also just have temporarily failed, so we still want to // continue retrying. warn(error); } closeFn(); } } } } interrupt(reason) { log('Interrupting connection for reason: ' + reason); this.interruptReasons_[reason] = true; if (this.realtime_) { this.realtime_.close(); } else { if (this.establishConnectionTimer_) { clearTimeout(this.establishConnectionTimer_); this.establishConnectionTimer_ = null; } if (this.connected_) { this.onRealtimeDisconnect_(); } } } resume(reason) { log('Resuming connection for reason: ' + reason); delete this.interruptReasons_[reason]; if (isEmpty(this.interruptReasons_)) { this.reconnectDelay_ = RECONNECT_MIN_DELAY; if (!this.realtime_) { this.scheduleConnect_(0); } } } handleTimestamp_(timestamp) { const delta = timestamp - new Date().getTime(); this.onServerInfoUpdate_({ serverTimeOffset: delta }); } cancelSentTransactions_() { for (let i = 0; i < this.outstandingPuts_.length; i++) { const put = this.outstandingPuts_[i]; if (put && /*hash*/ 'h' in put.request && put.queued) { if (put.onComplete) { put.onComplete('disconnect'); } delete this.outstandingPuts_[i]; this.outstandingPutCount_--; } } // Clean up array occasionally. if (this.outstandingPutCount_ === 0) { this.outstandingPuts_ = []; } } onListenRevoked_(pathString, query) { // Remove the listen and manufacture a "permission_denied" error for the failed listen. let queryId; if (!query) { queryId = 'default'; } else { queryId = query.map(q => ObjectToUniqueKey(q)).join('$'); } const listen = this.removeListen_(pathString, queryId); if (listen && listen.onComplete) { listen.onComplete('permission_denied'); } } removeListen_(pathString, queryId) { const normalizedPathString = new Path(pathString).toString(); // normalize path. let listen; if (this.listens.has(normalizedPathString)) { const map = this.listens.get(normalizedPathString); listen = map.get(queryId); map.delete(queryId); if (map.size === 0) { this.listens.delete(normalizedPathString); } } else { // all listens for this path has already been removed listen = undefined; } return listen; } onAuthRevoked_(statusCode, explanation) { log('Auth token revoked: ' + statusCode + '/' + explanation); this.authToken_ = null; this.forceTokenRefresh_ = true; this.realtime_.close(); if (statusCode === 'invalid_token' || statusCode === 'permission_denied') { // We'll wait a couple times before logging the warning / increasing the // retry period since oauth tokens will report as "invalid" if they're // just expired. Plus there may be transient issues that resolve themselves. this.invalidAuthTokenCount_++; if (this.invalidAuthTokenCount_ >= INVALID_TOKEN_THRESHOLD) { // Set a long reconnect delay because recovery is unlikely this.reconnectDelay_ = RECONNECT_MAX_DELAY_FOR_ADMINS; // Notify the auth token provider that the token is invalid, which will log // a warning this.authTokenProvider_.notifyForInvalidToken(); } } } onAppCheckRevoked_(statusCode, explanation) { log('App check token revoked: ' + statusCode + '/' + explanation); this.appCheckToken_ = null; this.forceTokenRefresh_ = true; // Note: We don't close the connection as the developer may not have // enforcement enabled. The backend closes connections with enforcements. if (statusCode === 'invalid_token' || statusCode === 'permission_denied') { // We'll wait a couple times before logging the warning / increasing the // retry period since oauth tokens will report as "invalid" if they're // just expired. Plus there may be transient issues that resolve themselves. this.invalidAppCheckTokenCount_++; if (this.invalidAppCheckTokenCount_ >= INVALID_TOKEN_THRESHOLD) { this.appCheckTokenProvider_.notifyForInvalidToken(); } } } onSecurityDebugPacket_(body) { if (this.securityDebugCallback_) { this.securityDebugCallback_(body); } else { if ('msg' in body) { console.log('FIREBASE: ' + body['msg'].replace('\n', '\nFIREBASE: ')); } } } restoreState_() { //Re-authenticate ourselves if we have a credential stored. this.tryAuth(); this.tryAppCheck(); // Puts depend on having received the corresponding data update from the server before they complete, so we must // make sure to send listens before puts. for (const queries of this.listens.values()) { for (const listenSpec of queries.values()) { this.sendListen_(listenSpec); } } for (let i = 0; i < this.outstandingPuts_.length; i++) { if (this.outstandingPuts_[i]) { this.sendPut_(i); } } while (this.onDisconnectRequestQueue_.length) { const request = this.onDisconnectRequestQueue_.shift(); this.sendOnDisconnect_(request.action, request.pathString, request.data, request.onComplete); } for (let i = 0; i < this.outstandingGets_.length; i++) { if (this.outstandingGets_[i]) { this.sendGet_(i); } } } /** * Sends client stats for first connection */ sendConnectStats_() { const stats = {}; let clientName = 'js'; if (isNodeSdk()) { if (this.repoInfo_.nodeAdmin) { clientName = 'admin_node'; } else { clientName = 'node'; } } stats['sdk.' + clientName + '.' + SDK_VERSION.replace(/\./g, '-')] = 1; if (isMobileCordova()) { stats['framework.cordova'] = 1; } else if (isReactNative()) { stats['framework.reactnative'] = 1; } this.reportStats(stats); } shouldReconnect_() { const online = OnlineMonitor.getInstance().currentlyOnline(); return isEmpty(this.interruptReasons_) && online; } } PersistentConnection.nextPersistentConnectionId_ = 0; /** * Counter for number of connections created. Mainly used for tagging in the logs */ PersistentConnection.nextConnectionId_ = 0; /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ class NamedNode { constructor(name, node) { this.name = name; this.node = node; } static Wrap(name, node) { return new NamedNode(name, node); } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ class Index { /** * @returns A standalone comparison function for * this index */ getCompare() { return this.compare.bind(this); } /** * Given a before and after value for a node, determine if the indexed value has changed. Even if they are different, * it's possible that the changes are isolated to parts of the snapshot that are not indexed. * * * @returns True if the portion of the snapshot being indexed changed between oldNode and newNode */ indexedValueChanged(oldNode, newNode) { const oldWrapped = new NamedNode(MIN_NAME, oldNode); const newWrapped = new NamedNode(MIN_NAME, newNode); return this.compare(oldWrapped, newWrapped) !== 0; } /** * @returns a node wrapper that will sort equal to or less than * any other node wrapper, using this index */ minPost() { // eslint-disable-next-line @typescript-eslint/no-explicit-any return NamedNode.MIN; } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ let __EMPTY_NODE; class KeyIndex extends Index { static get __EMPTY_NODE() { return __EMPTY_NODE; } static set __EMPTY_NODE(val) { __EMPTY_NODE = val; } compare(a, b) { return nameCompare(a.name, b.name); } isDefinedOn(node) { // We could probably return true here (since every node has a key), but it's never called // so just leaving unimplemented for now. throw assertionError('KeyIndex.isDefinedOn not expected to be called.'); } indexedValueChanged(oldNode, newNode) { return false; // The key for a node never changes. } minPost() { // eslint-disable-next-line @typescript-eslint/no-explicit-any return NamedNode.MIN; } maxPost() { // TODO: This should really be created once and cached in a static property, but // NamedNode isn't defined yet, so I can't use it in a static. Bleh. return new NamedNode(MAX_NAME, __EMPTY_NODE); } makePost(indexValue, name) { assert(typeof indexValue === 'string', 'KeyIndex indexValue must always be a string.'); // We just use empty node, but it'll never be compared, since our comparator only looks at name. return new NamedNode(indexValue, __EMPTY_NODE); } /** * @returns String representation for inclusion in a query spec */ toString() { return '.key'; } } const KEY_INDEX = new KeyIndex(); /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * An iterator over an LLRBNode. */ class SortedMapIterator { /** * @param node - Node to iterate. * @param isReverse_ - Whether or not to iterate in reverse */ constructor(node, startKey, comparator, isReverse_, resultGenerator_ = null) { this.isReverse_ = isReverse_; this.resultGenerator_ = resultGenerator_; this.nodeStack_ = []; let cmp = 1; while (!node.isEmpty()) { node = node; cmp = startKey ? comparator(node.key, startKey) : 1; // flip the comparison if we're going in reverse if (isReverse_) { cmp *= -1; } if (cmp < 0) { // This node is less than our start key. ignore it if (this.isReverse_) { node = node.left; } else { node = node.right; } } else if (cmp === 0) { // This node is exactly equal to our start key. Push it on the stack, but stop iterating; this.nodeStack_.push(node); break; } else { // This node is greater than our start key, add it to the stack and move to the next one this.nodeStack_.push(node); if (this.isReverse_) { node = node.right; } else { node = node.left; } } } } getNext() { if (this.nodeStack_.length === 0) { return null; } let node = this.nodeStack_.pop(); let result; if (this.resultGenerator_) { result = this.resultGenerator_(node.key, node.value); } else { result = { key: node.key, value: node.value }; } if (this.isReverse_) { node = node.left; while (!node.isEmpty()) { this.nodeStack_.push(node); node = node.right; } } else { node = node.right; while (!node.isEmpty()) { this.nodeStack_.push(node); node = node.left; } } return result; } hasNext() { return this.nodeStack_.length > 0; } peek() { if (this.nodeStack_.length === 0) { return null; } const node = this.nodeStack_[this.nodeStack_.length - 1]; if (this.resultGenerator_) { return this.resultGenerator_(node.key, node.value); } else { return { key: node.key, value: node.value }; } } } /** * Represents a node in a Left-leaning Red-Black tree. */ class LLRBNode { /** * @param key - Key associated with this node. * @param value - Value associated with this node. * @param color - Whether this node is red. * @param left - Left child. * @param right - Right child. */ constructor(key, value, color, left, right) { this.key = key; this.value = value; this.color = color != null ? color : LLRBNode.RED; this.left = left != null ? left : SortedMap.EMPTY_NODE; this.right = right != null ? right : SortedMap.EMPTY_NODE; } /** * Returns a copy of the current node, optionally replacing pieces of it. * * @param key - New key for the node, or null. * @param value - New value for the node, or null. * @param color - New color for the node, or null. * @param left - New left child for the node, or null. * @param right - New right child for the node, or null. * @returns The node copy. */ copy(key, value, color, left, right) { return new LLRBNode(key != null ? key : this.key, value != null ? value : this.value, color != null ? color : this.color, left != null ? left : this.left, right != null ? right : this.right); } /** * @returns The total number of nodes in the tree. */ count() { return this.left.count() + 1 + this.right.count(); } /** * @returns True if the tree is empty. */ isEmpty() { return false; } /** * Traverses the tree in key order and calls the specified action function * for each node. * * @param action - Callback function to be called for each * node. If it returns true, traversal is aborted. * @returns The first truthy value returned by action, or the last falsey * value returned by action */ inorderTraversal(action) { return (this.left.inorderTraversal(action) || !!action(this.key, this.value) || this.right.inorderTraversal(action)); } /** * Traverses the tree in reverse key order and calls the specified action function * for each node. * * @param action - Callback function to be called for each * node. If it returns true, traversal is aborted. * @returns True if traversal was aborted. */ reverseTraversal(action) { return (this.right.reverseTraversal(action) || action(this.key, this.value) || this.left.reverseTraversal(action)); } /** * @returns The minimum node in the tree. */ min_() { if (this.left.isEmpty()) { return this; } else { return this.left.min_(); } } /** * @returns The maximum key in the tree. */ minKey() { return this.min_().key; } /** * @returns The maximum key in the tree. */ maxKey() { if (this.right.isEmpty()) { return this.key; } else { return this.right.maxKey(); } } /** * @param key - Key to insert. * @param value - Value to insert. * @param comparator - Comparator. * @returns New tree, with the key/value added. */ insert(key, value, comparator) { let n = this; const cmp = comparator(key, n.key); if (cmp < 0) { n = n.copy(null, null, null, n.left.insert(key, value, comparator), null); } else if (cmp === 0) { n = n.copy(null, value, null, null, null); } else { n = n.copy(null, null, null, null, n.right.insert(key, value, comparator)); } return n.fixUp_(); } /** * @returns New tree, with the minimum key removed. */ removeMin_() { if (this.left.isEmpty()) { return SortedMap.EMPTY_NODE; } let n = this; if (!n.left.isRed_() && !n.left.left.isRed_()) { n = n.moveRedLeft_(); } n = n.copy(null, null, null, n.left.removeMin_(), null); return n.fixUp_(); } /** * @param key - The key of the item to remove. * @param comparator - Comparator. * @returns New tree, with the specified item removed. */ remove(key, comparator) { let n, smallest; n = this; if (comparator(key, n.key) < 0) { if (!n.left.isEmpty() && !n.left.isRed_() && !n.left.left.isRed_()) { n = n.moveRedLeft_(); } n = n.copy(null, null, null, n.left.remove(key, comparator), null); } else { if (n.left.isRed_()) { n = n.rotateRight_(); } if (!n.right.isEmpty() && !n.right.isRed_() && !n.right.left.isRed_()) { n = n.moveRedRight_(); } if (comparator(key, n.key) === 0) { if (n.right.isEmpty()) { return SortedMap.EMPTY_NODE; } else { smallest = n.right.min_(); n = n.copy(smallest.key, smallest.value, null, null, n.right.removeMin_()); } } n = n.copy(null, null, null, null, n.right.remove(key, comparator)); } return n.fixUp_(); } /** * @returns Whether this is a RED node. */ isRed_() { return this.color; } /** * @returns New tree after performing any needed rotations. */ fixUp_() { let n = this; if (n.right.isRed_() && !n.left.isRed_()) { n = n.rotateLeft_(); } if (n.left.isRed_() && n.left.left.isRed_()) { n = n.rotateRight_(); } if (n.left.isRed_() && n.right.isRed_()) { n = n.colorFlip_(); } return n; } /** * @returns New tree, after moveRedLeft. */ moveRedLeft_() { let n = this.colorFlip_(); if (n.right.left.isRed_()) { n = n.copy(null, null, null, null, n.right.rotateRight_()); n = n.rotateLeft_(); n = n.colorFlip_(); } return n; } /** * @returns New tree, after moveRedRight. */ moveRedRight_() { let n = this.colorFlip_(); if (n.left.left.isRed_()) { n = n.rotateRight_(); n = n.colorFlip_(); } return n; } /** * @returns New tree, after rotateLeft. */ rotateLeft_() { const nl = this.copy(null, null, LLRBNode.RED, null, this.right.left); return this.right.copy(null, null, this.color, nl, null); } /** * @returns New tree, after rotateRight. */ rotateRight_() { const nr = this.copy(null, null, LLRBNode.RED, this.left.right, null); return this.left.copy(null, null, this.color, null, nr); } /** * @returns Newt ree, after colorFlip. */ colorFlip_() { const left = this.left.copy(null, null, !this.left.color, null, null); const right = this.right.copy(null, null, !this.right.color, null, null); return this.copy(null, null, !this.color, left, right); } /** * For testing. * * @returns True if all is well. */ checkMaxDepth_() { const blackDepth = this.check_(); return Math.pow(2.0, blackDepth) <= this.count() + 1; } check_() { if (this.isRed_() && this.left.isRed_()) { throw new Error('Red node has red child(' + this.key + ',' + this.value + ')'); } if (this.right.isRed_()) { throw new Error('Right child of (' + this.key + ',' + this.value + ') is red'); } const blackDepth = this.left.check_(); if (blackDepth !== this.right.check_()) { throw new Error('Black depths differ'); } else { return blackDepth + (this.isRed_() ? 0 : 1); } } } LLRBNode.RED = true; LLRBNode.BLACK = false; /** * Represents an empty node (a leaf node in the Red-Black Tree). */ class LLRBEmptyNode { /** * Returns a copy of the current node. * * @returns The node copy. */ copy(key, value, color, left, right) { return this; } /** * Returns a copy of the tree, with the specified key/value added. * * @param key - Key to be added. * @param value - Value to be added. * @param comparator - Comparator. * @returns New tree, with item added. */ insert(key, value, comparator) { return new LLRBNode(key, value, null); } /** * Returns a copy of the tree, with the specified key removed. * * @param key - The key to remove. * @param comparator - Comparator. * @returns New tree, with item removed. */ remove(key, comparator) { return this; } /** * @returns The total number of nodes in the tree. */ count() { return 0; } /** * @returns True if the tree is empty. */ isEmpty() { return true; } /** * Traverses the tree in key order and calls the specified action function * for each node. * * @param action - Callback function to be called for each * node. If it returns true, traversal is aborted. * @returns True if traversal was aborted. */ inorderTraversal(action) { return false; } /** * Traverses the tree in reverse key order and calls the specified action function * for each node. * * @param action - Callback function to be called for each * node. If it returns true, traversal is aborted. * @returns True if traversal was aborted. */ reverseTraversal(action) { return false; } minKey() { return null; } maxKey() { return null; } check_() { return 0; } /** * @returns Whether this node is red. */ isRed_() { return false; } } /** * An immutable sorted map implementation, based on a Left-leaning Red-Black * tree. */ class SortedMap { /** * @param comparator_ - Key comparator. * @param root_ - Optional root node for the map. */ constructor(comparator_, root_ = SortedMap.EMPTY_NODE) { this.comparator_ = comparator_; this.root_ = root_; } /** * Returns a copy of the map, with the specified key/value added or replaced. * (TODO: We should perhaps rename this method to 'put') * * @param key - Key to be added. * @param value - Value to be added. * @returns New map, with item added. */ insert(key, value) { return new SortedMap(this.comparator_, this.root_ .insert(key, value, this.comparator_) .copy(null, null, LLRBNode.BLACK, null, null)); } /** * Returns a copy of the map, with the specified key removed. * * @param key - The key to remove. * @returns New map, with item removed. */ remove(key) { return new SortedMap(this.comparator_, this.root_ .remove(key, this.comparator_) .copy(null, null, LLRBNode.BLACK, null, null)); } /** * Returns the value of the node with the given key, or null. * * @param key - The key to look up. * @returns The value of the node with the given key, or null if the * key doesn't exist. */ get(key) { let cmp; let node = this.root_; while (!node.isEmpty()) { cmp = this.comparator_(key, node.key); if (cmp === 0) { return node.value; } else if (cmp < 0) { node = node.left; } else if (cmp > 0) { node = node.right; } } return null; } /** * Returns the key of the item *before* the specified key, or null if key is the first item. * @param key - The key to find the predecessor of * @returns The predecessor key. */ getPredecessorKey(key) { let cmp, node = this.root_, rightParent = null; while (!node.isEmpty()) { cmp = this.comparator_(key, node.key); if (cmp === 0) { if (!node.left.isEmpty()) { node = node.left; while (!node.right.isEmpty()) { node = node.right; } return node.key; } else if (rightParent) { return rightParent.key; } else { return null; // first item. } } else if (cmp < 0) { node = node.left; } else if (cmp > 0) { rightParent = node; node = node.right; } } throw new Error('Attempted to find predecessor key for a nonexistent key. What gives?'); } /** * @returns True if the map is empty. */ isEmpty() { return this.root_.isEmpty(); } /** * @returns The total number of nodes in the map. */ count() { return this.root_.count(); } /** * @returns The minimum key in the map. */ minKey() { return this.root_.minKey(); } /** * @returns The maximum key in the map. */ maxKey() { return this.root_.maxKey(); } /** * Traverses the map in key order and calls the specified action function * for each key/value pair. * * @param action - Callback function to be called * for each key/value pair. If action returns true, traversal is aborted. * @returns The first truthy value returned by action, or the last falsey * value returned by action */ inorderTraversal(action) { return this.root_.inorderTraversal(action); } /** * Traverses the map in reverse key order and calls the specified action function * for each key/value pair. * * @param action - Callback function to be called * for each key/value pair. If action returns true, traversal is aborted. * @returns True if the traversal was aborted. */ reverseTraversal(action) { return this.root_.reverseTraversal(action); } /** * Returns an iterator over the SortedMap. * @returns The iterator. */ getIterator(resultGenerator) { return new SortedMapIterator(this.root_, null, this.comparator_, false, resultGenerator); } getIteratorFrom(key, resultGenerator) { return new SortedMapIterator(this.root_, key, this.comparator_, false, resultGenerator); } getReverseIteratorFrom(key, resultGenerator) { return new SortedMapIterator(this.root_, key, this.comparator_, true, resultGenerator); } getReverseIterator(resultGenerator) { return new SortedMapIterator(this.root_, null, this.comparator_, true, resultGenerator); } } /** * Always use the same empty node, to reduce memory. */ SortedMap.EMPTY_NODE = new LLRBEmptyNode(); /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ function NAME_ONLY_COMPARATOR(left, right) { return nameCompare(left.name, right.name); } function NAME_COMPARATOR(left, right) { return nameCompare(left, right); } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ let MAX_NODE$2; function setMaxNode$1(val) { MAX_NODE$2 = val; } const priorityHashText = function (priority) { if (typeof priority === 'number') { return 'number:' + doubleToIEEE754String(priority); } else { return 'string:' + priority; } }; /** * Validates that a priority snapshot Node is valid. */ const validatePriorityNode = function (priorityNode) { if (priorityNode.isLeafNode()) { const val = priorityNode.val(); assert(typeof val === 'string' || typeof val === 'number' || (typeof val === 'object' && contains(val, '.sv')), 'Priority must be a string or number.'); } else { assert(priorityNode === MAX_NODE$2 || priorityNode.isEmpty(), 'priority of unexpected type.'); } // Don't call getPriority() on MAX_NODE to avoid hitting assertion. assert(priorityNode === MAX_NODE$2 || priorityNode.getPriority().isEmpty(), "Priority nodes can't have a priority of their own."); }; /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ let __childrenNodeConstructor; /** * LeafNode is a class for storing leaf nodes in a DataSnapshot. It * implements Node and stores the value of the node (a string, * number, or boolean) accessible via getValue(). */ class LeafNode { /** * @param value_ - The value to store in this leaf node. The object type is * possible in the event of a deferred value * @param priorityNode_ - The priority of this node. */ constructor(value_, priorityNode_ = LeafNode.__childrenNodeConstructor.EMPTY_NODE) { this.value_ = value_; this.priorityNode_ = priorityNode_; this.lazyHash_ = null; assert(this.value_ !== undefined && this.value_ !== null, "LeafNode shouldn't be created with null/undefined value."); validatePriorityNode(this.priorityNode_); } static set __childrenNodeConstructor(val) { __childrenNodeConstructor = val; } static get __childrenNodeConstructor() { return __childrenNodeConstructor; } /** @inheritDoc */ isLeafNode() { return true; } /** @inheritDoc */ getPriority() { return this.priorityNode_; } /** @inheritDoc */ updatePriority(newPriorityNode) { return new LeafNode(this.value_, newPriorityNode); } /** @inheritDoc */ getImmediateChild(childName) { // Hack to treat priority as a regular child if (childName === '.priority') { return this.priorityNode_; } else { return LeafNode.__childrenNodeConstructor.EMPTY_NODE; } } /** @inheritDoc */ getChild(path) { if (pathIsEmpty(path)) { return this; } else if (pathGetFront(path) === '.priority') { return this.priorityNode_; } else { return LeafNode.__childrenNodeConstructor.EMPTY_NODE; } } hasChild() { return false; } /** @inheritDoc */ getPredecessorChildName(childName, childNode) { return null; } /** @inheritDoc */ updateImmediateChild(childName, newChildNode) { if (childName === '.priority') { return this.updatePriority(newChildNode); } else if (newChildNode.isEmpty() && childName !== '.priority') { return this; } else { return LeafNode.__childrenNodeConstructor.EMPTY_NODE.updateImmediateChild(childName, newChildNode).updatePriority(this.priorityNode_); } } /** @inheritDoc */ updateChild(path, newChildNode) { const front = pathGetFront(path); if (front === null) { return newChildNode; } else if (newChildNode.isEmpty() && front !== '.priority') { return this; } else { assert(front !== '.priority' || pathGetLength(path) === 1, '.priority must be the last token in a path'); return this.updateImmediateChild(front, LeafNode.__childrenNodeConstructor.EMPTY_NODE.updateChild(pathPopFront(path), newChildNode)); } } /** @inheritDoc */ isEmpty() { return false; } /** @inheritDoc */ numChildren() { return 0; } /** @inheritDoc */ forEachChild(index, action) { return false; } val(exportFormat) { if (exportFormat && !this.getPriority().isEmpty()) { return { '.value': this.getValue(), '.priority': this.getPriority().val() }; } else { return this.getValue(); } } /** @inheritDoc */ hash() { if (this.lazyHash_ === null) { let toHash = ''; if (!this.priorityNode_.isEmpty()) { toHash += 'priority:' + priorityHashText(this.priorityNode_.val()) + ':'; } const type = typeof this.value_; toHash += type + ':'; if (type === 'number') { toHash += doubleToIEEE754String(this.value_); } else { toHash += this.value_; } this.lazyHash_ = sha1(toHash); } return this.lazyHash_; } /** * Returns the value of the leaf node. * @returns The value of the node. */ getValue() { return this.value_; } compareTo(other) { if (other === LeafNode.__childrenNodeConstructor.EMPTY_NODE) { return 1; } else if (other instanceof LeafNode.__childrenNodeConstructor) { return -1; } else { assert(other.isLeafNode(), 'Unknown node type'); return this.compareToLeafNode_(other); } } /** * Comparison specifically for two leaf nodes */ compareToLeafNode_(otherLeaf) { const otherLeafType = typeof otherLeaf.value_; const thisLeafType = typeof this.value_; const otherIndex = LeafNode.VALUE_TYPE_ORDER.indexOf(otherLeafType); const thisIndex = LeafNode.VALUE_TYPE_ORDER.indexOf(thisLeafType); assert(otherIndex >= 0, 'Unknown leaf type: ' + otherLeafType); assert(thisIndex >= 0, 'Unknown leaf type: ' + thisLeafType); if (otherIndex === thisIndex) { // Same type, compare values if (thisLeafType === 'object') { // Deferred value nodes are all equal, but we should also never get to this point... return 0; } else { // Note that this works because true > false, all others are number or string comparisons if (this.value_ < otherLeaf.value_) { return -1; } else if (this.value_ === otherLeaf.value_) { return 0; } else { return 1; } } } else { return thisIndex - otherIndex; } } withIndex() { return this; } isIndexed() { return true; } equals(other) { if (other === this) { return true; } else if (other.isLeafNode()) { const otherLeaf = other; return (this.value_ === otherLeaf.value_ && this.priorityNode_.equals(otherLeaf.priorityNode_)); } else { return false; } } } /** * The sort order for comparing leaf nodes of different types. If two leaf nodes have * the same type, the comparison falls back to their value */ LeafNode.VALUE_TYPE_ORDER = ['object', 'boolean', 'number', 'string']; /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ let nodeFromJSON$1; let MAX_NODE$1; function setNodeFromJSON(val) { nodeFromJSON$1 = val; } function setMaxNode(val) { MAX_NODE$1 = val; } class PriorityIndex extends Index { compare(a, b) { const aPriority = a.node.getPriority(); const bPriority = b.node.getPriority(); const indexCmp = aPriority.compareTo(bPriority); if (indexCmp === 0) { return nameCompare(a.name, b.name); } else { return indexCmp; } } isDefinedOn(node) { return !node.getPriority().isEmpty(); } indexedValueChanged(oldNode, newNode) { return !oldNode.getPriority().equals(newNode.getPriority()); } minPost() { // eslint-disable-next-line @typescript-eslint/no-explicit-any return NamedNode.MIN; } maxPost() { return new NamedNode(MAX_NAME, new LeafNode('[PRIORITY-POST]', MAX_NODE$1)); } makePost(indexValue, name) { const priorityNode = nodeFromJSON$1(indexValue); return new NamedNode(name, new LeafNode('[PRIORITY-POST]', priorityNode)); } /** * @returns String representation for inclusion in a query spec */ toString() { return '.priority'; } } const PRIORITY_INDEX = new PriorityIndex(); /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ const LOG_2 = Math.log(2); class Base12Num { constructor(length) { const logBase2 = (num) => // eslint-disable-next-line @typescript-eslint/no-explicit-any parseInt((Math.log(num) / LOG_2), 10); const bitMask = (bits) => parseInt(Array(bits + 1).join('1'), 2); this.count = logBase2(length + 1); this.current_ = this.count - 1; const mask = bitMask(this.count); this.bits_ = (length + 1) & mask; } nextBitIsOne() { //noinspection JSBitwiseOperatorUsage const result = !(this.bits_ & (0x1 << this.current_)); this.current_--; return result; } } /** * Takes a list of child nodes and constructs a SortedSet using the given comparison * function * * Uses the algorithm described in the paper linked here: * http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.46.1458 * * @param childList - Unsorted list of children * @param cmp - The comparison method to be used * @param keyFn - An optional function to extract K from a node wrapper, if K's * type is not NamedNode * @param mapSortFn - An optional override for comparator used by the generated sorted map */ const buildChildSet = function (childList, cmp, keyFn, mapSortFn) { childList.sort(cmp); const buildBalancedTree = function (low, high) { const length = high - low; let namedNode; let key; if (length === 0) { return null; } else if (length === 1) { namedNode = childList[low]; key = keyFn ? keyFn(namedNode) : namedNode; return new LLRBNode(key, namedNode.node, LLRBNode.BLACK, null, null); } else { // eslint-disable-next-line @typescript-eslint/no-explicit-any const middle = parseInt((length / 2), 10) + low; const left = buildBalancedTree(low, middle); const right = buildBalancedTree(middle + 1, high); namedNode = childList[middle]; key = keyFn ? keyFn(namedNode) : namedNode; return new LLRBNode(key, namedNode.node, LLRBNode.BLACK, left, right); } }; const buildFrom12Array = function (base12) { let node = null; let root = null; let index = childList.length; const buildPennant = function (chunkSize, color) { const low = index - chunkSize; const high = index; index -= chunkSize; const childTree = buildBalancedTree(low + 1, high); const namedNode = childList[low]; const key = keyFn ? keyFn(namedNode) : namedNode; attachPennant(new LLRBNode(key, namedNode.node, color, null, childTree)); }; const attachPennant = function (pennant) { if (node) { node.left = pennant; node = pennant; } else { root = pennant; node = pennant; } }; for (let i = 0; i < base12.count; ++i) { const isOne = base12.nextBitIsOne(); // The number of nodes taken in each slice is 2^(arr.length - (i + 1)) const chunkSize = Math.pow(2, base12.count - (i + 1)); if (isOne) { buildPennant(chunkSize, LLRBNode.BLACK); } else { // current == 2 buildPennant(chunkSize, LLRBNode.BLACK); buildPennant(chunkSize, LLRBNode.RED); } } return root; }; const base12 = new Base12Num(childList.length); const root = buildFrom12Array(base12); // eslint-disable-next-line @typescript-eslint/no-explicit-any return new SortedMap(mapSortFn || cmp, root); }; /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ let _defaultIndexMap; const fallbackObject = {}; class IndexMap { constructor(indexes_, indexSet_) { this.indexes_ = indexes_; this.indexSet_ = indexSet_; } /** * The default IndexMap for nodes without a priority */ static get Default() { assert(fallbackObject && PRIORITY_INDEX, 'ChildrenNode.ts has not been loaded'); _defaultIndexMap = _defaultIndexMap || new IndexMap({ '.priority': fallbackObject }, { '.priority': PRIORITY_INDEX }); return _defaultIndexMap; } get(indexKey) { const sortedMap = safeGet(this.indexes_, indexKey); if (!sortedMap) { throw new Error('No index defined for ' + indexKey); } if (sortedMap instanceof SortedMap) { return sortedMap; } else { // The index exists, but it falls back to just name comparison. Return null so that the calling code uses the // regular child map return null; } } hasIndex(indexDefinition) { return contains(this.indexSet_, indexDefinition.toString()); } addIndex(indexDefinition, existingChildren) { assert(indexDefinition !== KEY_INDEX, "KeyIndex always exists and isn't meant to be added to the IndexMap."); const childList = []; let sawIndexedValue = false; const iter = existingChildren.getIterator(NamedNode.Wrap); let next = iter.getNext(); while (next) { sawIndexedValue = sawIndexedValue || indexDefinition.isDefinedOn(next.node); childList.push(next); next = iter.getNext(); } let newIndex; if (sawIndexedValue) { newIndex = buildChildSet(childList, indexDefinition.getCompare()); } else { newIndex = fallbackObject; } const indexName = indexDefinition.toString(); const newIndexSet = Object.assign({}, this.indexSet_); newIndexSet[indexName] = indexDefinition; const newIndexes = Object.assign({}, this.indexes_); newIndexes[indexName] = newIndex; return new IndexMap(newIndexes, newIndexSet); } /** * Ensure that this node is properly tracked in any indexes that we're maintaining */ addToIndexes(namedNode, existingChildren) { const newIndexes = map(this.indexes_, (indexedChildren, indexName) => { const index = safeGet(this.indexSet_, indexName); assert(index, 'Missing index implementation for ' + indexName); if (indexedChildren === fallbackObject) { // Check to see if we need to index everything if (index.isDefinedOn(namedNode.node)) { // We need to build this index const childList = []; const iter = existingChildren.getIterator(NamedNode.Wrap); let next = iter.getNext(); while (next) { if (next.name !== namedNode.name) { childList.push(next); } next = iter.getNext(); } childList.push(namedNode); return buildChildSet(childList, index.getCompare()); } else { // No change, this remains a fallback return fallbackObject; } } else { const existingSnap = existingChildren.get(namedNode.name); let newChildren = indexedChildren; if (existingSnap) { newChildren = newChildren.remove(new NamedNode(namedNode.name, existingSnap)); } return newChildren.insert(namedNode, namedNode.node); } }); return new IndexMap(newIndexes, this.indexSet_); } /** * Create a new IndexMap instance with the given value removed */ removeFromIndexes(namedNode, existingChildren) { const newIndexes = map(this.indexes_, (indexedChildren) => { if (indexedChildren === fallbackObject) { // This is the fallback. Just return it, nothing to do in this case return indexedChildren; } else { const existingSnap = existingChildren.get(namedNode.name); if (existingSnap) { return indexedChildren.remove(new NamedNode(namedNode.name, existingSnap)); } else { // No record of this child return indexedChildren; } } }); return new IndexMap(newIndexes, this.indexSet_); } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ // TODO: For memory savings, don't store priorityNode_ if it's empty. let EMPTY_NODE; /** * ChildrenNode is a class for storing internal nodes in a DataSnapshot * (i.e. nodes with children). It implements Node and stores the * list of children in the children property, sorted by child name. */ class ChildrenNode { /** * @param children_ - List of children of this node.. * @param priorityNode_ - The priority of this node (as a snapshot node). */ constructor(children_, priorityNode_, indexMap_) { this.children_ = children_; this.priorityNode_ = priorityNode_; this.indexMap_ = indexMap_; this.lazyHash_ = null; /** * Note: The only reason we allow null priority is for EMPTY_NODE, since we can't use * EMPTY_NODE as the priority of EMPTY_NODE. We might want to consider making EMPTY_NODE its own * class instead of an empty ChildrenNode. */ if (this.priorityNode_) { validatePriorityNode(this.priorityNode_); } if (this.children_.isEmpty()) { assert(!this.priorityNode_ || this.priorityNode_.isEmpty(), 'An empty node cannot have a priority'); } } static get EMPTY_NODE() { return (EMPTY_NODE || (EMPTY_NODE = new ChildrenNode(new SortedMap(NAME_COMPARATOR), null, IndexMap.Default))); } /** @inheritDoc */ isLeafNode() { return false; } /** @inheritDoc */ getPriority() { return this.priorityNode_ || EMPTY_NODE; } /** @inheritDoc */ updatePriority(newPriorityNode) { if (this.children_.isEmpty()) { // Don't allow priorities on empty nodes return this; } else { return new ChildrenNode(this.children_, newPriorityNode, this.indexMap_); } } /** @inheritDoc */ getImmediateChild(childName) { // Hack to treat priority as a regular child if (childName === '.priority') { return this.getPriority(); } else { const child = this.children_.get(childName); return child === null ? EMPTY_NODE : child; } } /** @inheritDoc */ getChild(path) { const front = pathGetFront(path); if (front === null) { return this; } return this.getImmediateChild(front).getChild(pathPopFront(path)); } /** @inheritDoc */ hasChild(childName) { return this.children_.get(childName) !== null; } /** @inheritDoc */ updateImmediateChild(childName, newChildNode) { assert(newChildNode, 'We should always be passing snapshot nodes'); if (childName === '.priority') { return this.updatePriority(newChildNode); } else { const namedNode = new NamedNode(childName, newChildNode); let newChildren, newIndexMap; if (newChildNode.isEmpty()) { newChildren = this.children_.remove(childName); newIndexMap = this.indexMap_.removeFromIndexes(namedNode, this.children_); } else { newChildren = this.children_.insert(childName, newChildNode); newIndexMap = this.indexMap_.addToIndexes(namedNode, this.children_); } const newPriority = newChildren.isEmpty() ? EMPTY_NODE : this.priorityNode_; return new ChildrenNode(newChildren, newPriority, newIndexMap); } } /** @inheritDoc */ updateChild(path, newChildNode) { const front = pathGetFront(path); if (front === null) { return newChildNode; } else { assert(pathGetFront(path) !== '.priority' || pathGetLength(path) === 1, '.priority must be the last token in a path'); const newImmediateChild = this.getImmediateChild(front).updateChild(pathPopFront(path), newChildNode); return this.updateImmediateChild(front, newImmediateChild); } } /** @inheritDoc */ isEmpty() { return this.children_.isEmpty(); } /** @inheritDoc */ numChildren() { return this.children_.count(); } /** @inheritDoc */ val(exportFormat) { if (this.isEmpty()) { return null; } const obj = {}; let numKeys = 0, maxKey = 0, allIntegerKeys = true; this.forEachChild(PRIORITY_INDEX, (key, childNode) => { obj[key] = childNode.val(exportFormat); numKeys++; if (allIntegerKeys && ChildrenNode.INTEGER_REGEXP_.test(key)) { maxKey = Math.max(maxKey, Number(key)); } else { allIntegerKeys = false; } }); if (!exportFormat && allIntegerKeys && maxKey < 2 * numKeys) { // convert to array. const array = []; // eslint-disable-next-line guard-for-in for (const key in obj) { array[key] = obj[key]; } return array; } else { if (exportFormat && !this.getPriority().isEmpty()) { obj['.priority'] = this.getPriority().val(); } return obj; } } /** @inheritDoc */ hash() { if (this.lazyHash_ === null) { let toHash = ''; if (!this.getPriority().isEmpty()) { toHash += 'priority:' + priorityHashText(this.getPriority().val()) + ':'; } this.forEachChild(PRIORITY_INDEX, (key, childNode) => { const childHash = childNode.hash(); if (childHash !== '') { toHash += ':' + key + ':' + childHash; } }); this.lazyHash_ = toHash === '' ? '' : sha1(toHash); } return this.lazyHash_; } /** @inheritDoc */ getPredecessorChildName(childName, childNode, index) { const idx = this.resolveIndex_(index); if (idx) { const predecessor = idx.getPredecessorKey(new NamedNode(childName, childNode)); return predecessor ? predecessor.name : null; } else { return this.children_.getPredecessorKey(childName); } } getFirstChildName(indexDefinition) { const idx = this.resolveIndex_(indexDefinition); if (idx) { const minKey = idx.minKey(); return minKey && minKey.name; } else { return this.children_.minKey(); } } getFirstChild(indexDefinition) { const minKey = this.getFirstChildName(indexDefinition); if (minKey) { return new NamedNode(minKey, this.children_.get(minKey)); } else { return null; } } /** * Given an index, return the key name of the largest value we have, according to that index */ getLastChildName(indexDefinition) { const idx = this.resolveIndex_(indexDefinition); if (idx) { const maxKey = idx.maxKey(); return maxKey && maxKey.name; } else { return this.children_.maxKey(); } } getLastChild(indexDefinition) { const maxKey = this.getLastChildName(indexDefinition); if (maxKey) { return new NamedNode(maxKey, this.children_.get(maxKey)); } else { return null; } } forEachChild(index, action) { const idx = this.resolveIndex_(index); if (idx) { return idx.inorderTraversal(wrappedNode => { return action(wrappedNode.name, wrappedNode.node); }); } else { return this.children_.inorderTraversal(action); } } getIterator(indexDefinition) { return this.getIteratorFrom(indexDefinition.minPost(), indexDefinition); } getIteratorFrom(startPost, indexDefinition) { const idx = this.resolveIndex_(indexDefinition); if (idx) { return idx.getIteratorFrom(startPost, key => key); } else { const iterator = this.children_.getIteratorFrom(startPost.name, NamedNode.Wrap); let next = iterator.peek(); while (next != null && indexDefinition.compare(next, startPost) < 0) { iterator.getNext(); next = iterator.peek(); } return iterator; } } getReverseIterator(indexDefinition) { return this.getReverseIteratorFrom(indexDefinition.maxPost(), indexDefinition); } getReverseIteratorFrom(endPost, indexDefinition) { const idx = this.resolveIndex_(indexDefinition); if (idx) { return idx.getReverseIteratorFrom(endPost, key => { return key; }); } else { const iterator = this.children_.getReverseIteratorFrom(endPost.name, NamedNode.Wrap); let next = iterator.peek(); while (next != null && indexDefinition.compare(next, endPost) > 0) { iterator.getNext(); next = iterator.peek(); } return iterator; } } compareTo(other) { if (this.isEmpty()) { if (other.isEmpty()) { return 0; } else { return -1; } } else if (other.isLeafNode() || other.isEmpty()) { return 1; } else if (other === MAX_NODE) { return -1; } else { // Must be another node with children. return 0; } } withIndex(indexDefinition) { if (indexDefinition === KEY_INDEX || this.indexMap_.hasIndex(indexDefinition)) { return this; } else { const newIndexMap = this.indexMap_.addIndex(indexDefinition, this.children_); return new ChildrenNode(this.children_, this.priorityNode_, newIndexMap); } } isIndexed(index) { return index === KEY_INDEX || this.indexMap_.hasIndex(index); } equals(other) { if (other === this) { return true; } else if (other.isLeafNode()) { return false; } else { const otherChildrenNode = other; if (!this.getPriority().equals(otherChildrenNode.getPriority())) { return false; } else if (this.children_.count() === otherChildrenNode.children_.count()) { const thisIter = this.getIterator(PRIORITY_INDEX); const otherIter = otherChildrenNode.getIterator(PRIORITY_INDEX); let thisCurrent = thisIter.getNext(); let otherCurrent = otherIter.getNext(); while (thisCurrent && otherCurrent) { if (thisCurrent.name !== otherCurrent.name || !thisCurrent.node.equals(otherCurrent.node)) { return false; } thisCurrent = thisIter.getNext(); otherCurrent = otherIter.getNext(); } return thisCurrent === null && otherCurrent === null; } else { return false; } } } /** * Returns a SortedMap ordered by index, or null if the default (by-key) ordering can be used * instead. * */ resolveIndex_(indexDefinition) { if (indexDefinition === KEY_INDEX) { return null; } else { return this.indexMap_.get(indexDefinition.toString()); } } } ChildrenNode.INTEGER_REGEXP_ = /^(0|[1-9]\d*)$/; class MaxNode extends ChildrenNode { constructor() { super(new SortedMap(NAME_COMPARATOR), ChildrenNode.EMPTY_NODE, IndexMap.Default); } compareTo(other) { if (other === this) { return 0; } else { return 1; } } equals(other) { // Not that we every compare it, but MAX_NODE is only ever equal to itself return other === this; } getPriority() { return this; } getImmediateChild(childName) { return ChildrenNode.EMPTY_NODE; } isEmpty() { return false; } } /** * Marker that will sort higher than any other snapshot. */ const MAX_NODE = new MaxNode(); Object.defineProperties(NamedNode, { MIN: { value: new NamedNode(MIN_NAME, ChildrenNode.EMPTY_NODE) }, MAX: { value: new NamedNode(MAX_NAME, MAX_NODE) } }); /** * Reference Extensions */ KeyIndex.__EMPTY_NODE = ChildrenNode.EMPTY_NODE; LeafNode.__childrenNodeConstructor = ChildrenNode; setMaxNode$1(MAX_NODE); setMaxNode(MAX_NODE); /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ const USE_HINZE = true; /** * Constructs a snapshot node representing the passed JSON and returns it. * @param json - JSON to create a node for. * @param priority - Optional priority to use. This will be ignored if the * passed JSON contains a .priority property. */ function nodeFromJSON(json, priority = null) { if (json === null) { return ChildrenNode.EMPTY_NODE; } if (typeof json === 'object' && '.priority' in json) { priority = json['.priority']; } assert(priority === null || typeof priority === 'string' || typeof priority === 'number' || (typeof priority === 'object' && '.sv' in priority), 'Invalid priority type found: ' + typeof priority); if (typeof json === 'object' && '.value' in json && json['.value'] !== null) { json = json['.value']; } // Valid leaf nodes include non-objects or server-value wrapper objects if (typeof json !== 'object' || '.sv' in json) { const jsonLeaf = json; return new LeafNode(jsonLeaf, nodeFromJSON(priority)); } if (!(json instanceof Array) && USE_HINZE) { const children = []; let childrenHavePriority = false; const hinzeJsonObj = json; each(hinzeJsonObj, (key, child) => { if (key.substring(0, 1) !== '.') { // Ignore metadata nodes const childNode = nodeFromJSON(child); if (!childNode.isEmpty()) { childrenHavePriority = childrenHavePriority || !childNode.getPriority().isEmpty(); children.push(new NamedNode(key, childNode)); } } }); if (children.length === 0) { return ChildrenNode.EMPTY_NODE; } const childSet = buildChildSet(children, NAME_ONLY_COMPARATOR, namedNode => namedNode.name, NAME_COMPARATOR); if (childrenHavePriority) { const sortedChildSet = buildChildSet(children, PRIORITY_INDEX.getCompare()); return new ChildrenNode(childSet, nodeFromJSON(priority), new IndexMap({ '.priority': sortedChildSet }, { '.priority': PRIORITY_INDEX })); } else { return new ChildrenNode(childSet, nodeFromJSON(priority), IndexMap.Default); } } else { let node = ChildrenNode.EMPTY_NODE; each(json, (key, childData) => { if (contains(json, key)) { if (key.substring(0, 1) !== '.') { // ignore metadata nodes. const childNode = nodeFromJSON(childData); if (childNode.isLeafNode() || !childNode.isEmpty()) { node = node.updateImmediateChild(key, childNode); } } } }); return node.updatePriority(nodeFromJSON(priority)); } } setNodeFromJSON(nodeFromJSON); /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ class PathIndex extends Index { constructor(indexPath_) { super(); this.indexPath_ = indexPath_; assert(!pathIsEmpty(indexPath_) && pathGetFront(indexPath_) !== '.priority', "Can't create PathIndex with empty path or .priority key"); } extractChild(snap) { return snap.getChild(this.indexPath_); } isDefinedOn(node) { return !node.getChild(this.indexPath_).isEmpty(); } compare(a, b) { const aChild = this.extractChild(a.node); const bChild = this.extractChild(b.node); const indexCmp = aChild.compareTo(bChild); if (indexCmp === 0) { return nameCompare(a.name, b.name); } else { return indexCmp; } } makePost(indexValue, name) { const valueNode = nodeFromJSON(indexValue); const node = ChildrenNode.EMPTY_NODE.updateChild(this.indexPath_, valueNode); return new NamedNode(name, node); } maxPost() { const node = ChildrenNode.EMPTY_NODE.updateChild(this.indexPath_, MAX_NODE); return new NamedNode(MAX_NAME, node); } toString() { return pathSlice(this.indexPath_, 0).join('/'); } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ class ValueIndex extends Index { compare(a, b) { const indexCmp = a.node.compareTo(b.node); if (indexCmp === 0) { return nameCompare(a.name, b.name); } else { return indexCmp; } } isDefinedOn(node) { return true; } indexedValueChanged(oldNode, newNode) { return !oldNode.equals(newNode); } minPost() { // eslint-disable-next-line @typescript-eslint/no-explicit-any return NamedNode.MIN; } maxPost() { // eslint-disable-next-line @typescript-eslint/no-explicit-any return NamedNode.MAX; } makePost(indexValue, name) { const valueNode = nodeFromJSON(indexValue); return new NamedNode(name, valueNode); } /** * @returns String representation for inclusion in a query spec */ toString() { return '.value'; } } const VALUE_INDEX = new ValueIndex(); /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ function changeValue(snapshotNode) { return { type: "value" /* ChangeType.VALUE */, snapshotNode }; } function changeChildAdded(childName, snapshotNode) { return { type: "child_added" /* ChangeType.CHILD_ADDED */, snapshotNode, childName }; } function changeChildRemoved(childName, snapshotNode) { return { type: "child_removed" /* ChangeType.CHILD_REMOVED */, snapshotNode, childName }; } function changeChildChanged(childName, snapshotNode, oldSnap) { return { type: "child_changed" /* ChangeType.CHILD_CHANGED */, snapshotNode, childName, oldSnap }; } function changeChildMoved(childName, snapshotNode) { return { type: "child_moved" /* ChangeType.CHILD_MOVED */, snapshotNode, childName }; } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Doesn't really filter nodes but applies an index to the node and keeps track of any changes */ class IndexedFilter { constructor(index_) { this.index_ = index_; } updateChild(snap, key, newChild, affectedPath, source, optChangeAccumulator) { assert(snap.isIndexed(this.index_), 'A node must be indexed if only a child is updated'); const oldChild = snap.getImmediateChild(key); // Check if anything actually changed. if (oldChild.getChild(affectedPath).equals(newChild.getChild(affectedPath))) { // There's an edge case where a child can enter or leave the view because affectedPath was set to null. // In this case, affectedPath will appear null in both the old and new snapshots. So we need // to avoid treating these cases as "nothing changed." if (oldChild.isEmpty() === newChild.isEmpty()) { // Nothing changed. // This assert should be valid, but it's expensive (can dominate perf testing) so don't actually do it. //assert(oldChild.equals(newChild), 'Old and new snapshots should be equal.'); return snap; } } if (optChangeAccumulator != null) { if (newChild.isEmpty()) { if (snap.hasChild(key)) { optChangeAccumulator.trackChildChange(changeChildRemoved(key, oldChild)); } else { assert(snap.isLeafNode(), 'A child remove without an old child only makes sense on a leaf node'); } } else if (oldChild.isEmpty()) { optChangeAccumulator.trackChildChange(changeChildAdded(key, newChild)); } else { optChangeAccumulator.trackChildChange(changeChildChanged(key, newChild, oldChild)); } } if (snap.isLeafNode() && newChild.isEmpty()) { return snap; } else { // Make sure the node is indexed return snap.updateImmediateChild(key, newChild).withIndex(this.index_); } } updateFullNode(oldSnap, newSnap, optChangeAccumulator) { if (optChangeAccumulator != null) { if (!oldSnap.isLeafNode()) { oldSnap.forEachChild(PRIORITY_INDEX, (key, childNode) => { if (!newSnap.hasChild(key)) { optChangeAccumulator.trackChildChange(changeChildRemoved(key, childNode)); } }); } if (!newSnap.isLeafNode()) { newSnap.forEachChild(PRIORITY_INDEX, (key, childNode) => { if (oldSnap.hasChild(key)) { const oldChild = oldSnap.getImmediateChild(key); if (!oldChild.equals(childNode)) { optChangeAccumulator.trackChildChange(changeChildChanged(key, childNode, oldChild)); } } else { optChangeAccumulator.trackChildChange(changeChildAdded(key, childNode)); } }); } } return newSnap.withIndex(this.index_); } updatePriority(oldSnap, newPriority) { if (oldSnap.isEmpty()) { return ChildrenNode.EMPTY_NODE; } else { return oldSnap.updatePriority(newPriority); } } filtersNodes() { return false; } getIndexedFilter() { return this; } getIndex() { return this.index_; } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Filters nodes by range and uses an IndexFilter to track any changes after filtering the node */ class RangedFilter { constructor(params) { this.indexedFilter_ = new IndexedFilter(params.getIndex()); this.index_ = params.getIndex(); this.startPost_ = RangedFilter.getStartPost_(params); this.endPost_ = RangedFilter.getEndPost_(params); this.startIsInclusive_ = !params.startAfterSet_; this.endIsInclusive_ = !params.endBeforeSet_; } getStartPost() { return this.startPost_; } getEndPost() { return this.endPost_; } matches(node) { const isWithinStart = this.startIsInclusive_ ? this.index_.compare(this.getStartPost(), node) <= 0 : this.index_.compare(this.getStartPost(), node) < 0; const isWithinEnd = this.endIsInclusive_ ? this.index_.compare(node, this.getEndPost()) <= 0 : this.index_.compare(node, this.getEndPost()) < 0; return isWithinStart && isWithinEnd; } updateChild(snap, key, newChild, affectedPath, source, optChangeAccumulator) { if (!this.matches(new NamedNode(key, newChild))) { newChild = ChildrenNode.EMPTY_NODE; } return this.indexedFilter_.updateChild(snap, key, newChild, affectedPath, source, optChangeAccumulator); } updateFullNode(oldSnap, newSnap, optChangeAccumulator) { if (newSnap.isLeafNode()) { // Make sure we have a children node with the correct index, not a leaf node; newSnap = ChildrenNode.EMPTY_NODE; } let filtered = newSnap.withIndex(this.index_); // Don't support priorities on queries filtered = filtered.updatePriority(ChildrenNode.EMPTY_NODE); const self = this; newSnap.forEachChild(PRIORITY_INDEX, (key, childNode) => { if (!self.matches(new NamedNode(key, childNode))) { filtered = filtered.updateImmediateChild(key, ChildrenNode.EMPTY_NODE); } }); return this.indexedFilter_.updateFullNode(oldSnap, filtered, optChangeAccumulator); } updatePriority(oldSnap, newPriority) { // Don't support priorities on queries return oldSnap; } filtersNodes() { return true; } getIndexedFilter() { return this.indexedFilter_; } getIndex() { return this.index_; } static getStartPost_(params) { if (params.hasStart()) { const startName = params.getIndexStartName(); return params.getIndex().makePost(params.getIndexStartValue(), startName); } else { return params.getIndex().minPost(); } } static getEndPost_(params) { if (params.hasEnd()) { const endName = params.getIndexEndName(); return params.getIndex().makePost(params.getIndexEndValue(), endName); } else { return params.getIndex().maxPost(); } } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Applies a limit and a range to a node and uses RangedFilter to do the heavy lifting where possible */ class LimitedFilter { constructor(params) { this.withinDirectionalStart = (node) => this.reverse_ ? this.withinEndPost(node) : this.withinStartPost(node); this.withinDirectionalEnd = (node) => this.reverse_ ? this.withinStartPost(node) : this.withinEndPost(node); this.withinStartPost = (node) => { const compareRes = this.index_.compare(this.rangedFilter_.getStartPost(), node); return this.startIsInclusive_ ? compareRes <= 0 : compareRes < 0; }; this.withinEndPost = (node) => { const compareRes = this.index_.compare(node, this.rangedFilter_.getEndPost()); return this.endIsInclusive_ ? compareRes <= 0 : compareRes < 0; }; this.rangedFilter_ = new RangedFilter(params); this.index_ = params.getIndex(); this.limit_ = params.getLimit(); this.reverse_ = !params.isViewFromLeft(); this.startIsInclusive_ = !params.startAfterSet_; this.endIsInclusive_ = !params.endBeforeSet_; } updateChild(snap, key, newChild, affectedPath, source, optChangeAccumulator) { if (!this.rangedFilter_.matches(new NamedNode(key, newChild))) { newChild = ChildrenNode.EMPTY_NODE; } if (snap.getImmediateChild(key).equals(newChild)) { // No change return snap; } else if (snap.numChildren() < this.limit_) { return this.rangedFilter_ .getIndexedFilter() .updateChild(snap, key, newChild, affectedPath, source, optChangeAccumulator); } else { return this.fullLimitUpdateChild_(snap, key, newChild, source, optChangeAccumulator); } } updateFullNode(oldSnap, newSnap, optChangeAccumulator) { let filtered; if (newSnap.isLeafNode() || newSnap.isEmpty()) { // Make sure we have a children node with the correct index, not a leaf node; filtered = ChildrenNode.EMPTY_NODE.withIndex(this.index_); } else { if (this.limit_ * 2 < newSnap.numChildren() && newSnap.isIndexed(this.index_)) { // Easier to build up a snapshot, since what we're given has more than twice the elements we want filtered = ChildrenNode.EMPTY_NODE.withIndex(this.index_); // anchor to the startPost, endPost, or last element as appropriate let iterator; if (this.reverse_) { iterator = newSnap.getReverseIteratorFrom(this.rangedFilter_.getEndPost(), this.index_); } else { iterator = newSnap.getIteratorFrom(this.rangedFilter_.getStartPost(), this.index_); } let count = 0; while (iterator.hasNext() && count < this.limit_) { const next = iterator.getNext(); if (!this.withinDirectionalStart(next)) { // if we have not reached the start, skip to the next element continue; } else if (!this.withinDirectionalEnd(next)) { // if we have reached the end, stop adding elements break; } else { filtered = filtered.updateImmediateChild(next.name, next.node); count++; } } } else { // The snap contains less than twice the limit. Faster to delete from the snap than build up a new one filtered = newSnap.withIndex(this.index_); // Don't support priorities on queries filtered = filtered.updatePriority(ChildrenNode.EMPTY_NODE); let iterator; if (this.reverse_) { iterator = filtered.getReverseIterator(this.index_); } else { iterator = filtered.getIterator(this.index_); } let count = 0; while (iterator.hasNext()) { const next = iterator.getNext(); const inRange = count < this.limit_ && this.withinDirectionalStart(next) && this.withinDirectionalEnd(next); if (inRange) { count++; } else { filtered = filtered.updateImmediateChild(next.name, ChildrenNode.EMPTY_NODE); } } } } return this.rangedFilter_ .getIndexedFilter() .updateFullNode(oldSnap, filtered, optChangeAccumulator); } updatePriority(oldSnap, newPriority) { // Don't support priorities on queries return oldSnap; } filtersNodes() { return true; } getIndexedFilter() { return this.rangedFilter_.getIndexedFilter(); } getIndex() { return this.index_; } fullLimitUpdateChild_(snap, childKey, childSnap, source, changeAccumulator) { // TODO: rename all cache stuff etc to general snap terminology let cmp; if (this.reverse_) { const indexCmp = this.index_.getCompare(); cmp = (a, b) => indexCmp(b, a); } else { cmp = this.index_.getCompare(); } const oldEventCache = snap; assert(oldEventCache.numChildren() === this.limit_, ''); const newChildNamedNode = new NamedNode(childKey, childSnap); const windowBoundary = this.reverse_ ? oldEventCache.getFirstChild(this.index_) : oldEventCache.getLastChild(this.index_); const inRange = this.rangedFilter_.matches(newChildNamedNode); if (oldEventCache.hasChild(childKey)) { const oldChildSnap = oldEventCache.getImmediateChild(childKey); let nextChild = source.getChildAfterChild(this.index_, windowBoundary, this.reverse_); while (nextChild != null && (nextChild.name === childKey || oldEventCache.hasChild(nextChild.name))) { // There is a weird edge case where a node is updated as part of a merge in the write tree, but hasn't // been applied to the limited filter yet. Ignore this next child which will be updated later in // the limited filter... nextChild = source.getChildAfterChild(this.index_, nextChild, this.reverse_); } const compareNext = nextChild == null ? 1 : cmp(nextChild, newChildNamedNode); const remainsInWindow = inRange && !childSnap.isEmpty() && compareNext >= 0; if (remainsInWindow) { if (changeAccumulator != null) { changeAccumulator.trackChildChange(changeChildChanged(childKey, childSnap, oldChildSnap)); } return oldEventCache.updateImmediateChild(childKey, childSnap); } else { if (changeAccumulator != null) { changeAccumulator.trackChildChange(changeChildRemoved(childKey, oldChildSnap)); } const newEventCache = oldEventCache.updateImmediateChild(childKey, ChildrenNode.EMPTY_NODE); const nextChildInRange = nextChild != null && this.rangedFilter_.matches(nextChild); if (nextChildInRange) { if (changeAccumulator != null) { changeAccumulator.trackChildChange(changeChildAdded(nextChild.name, nextChild.node)); } return newEventCache.updateImmediateChild(nextChild.name, nextChild.node); } else { return newEventCache; } } } else if (childSnap.isEmpty()) { // we're deleting a node, but it was not in the window, so ignore it return snap; } else if (inRange) { if (cmp(windowBoundary, newChildNamedNode) >= 0) { if (changeAccumulator != null) { changeAccumulator.trackChildChange(changeChildRemoved(windowBoundary.name, windowBoundary.node)); changeAccumulator.trackChildChange(changeChildAdded(childKey, childSnap)); } return oldEventCache .updateImmediateChild(childKey, childSnap) .updateImmediateChild(windowBoundary.name, ChildrenNode.EMPTY_NODE); } else { return snap; } } else { return snap; } } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * This class is an immutable-from-the-public-api struct containing a set of query parameters defining a * range to be returned for a particular location. It is assumed that validation of parameters is done at the * user-facing API level, so it is not done here. * * @internal */ class QueryParams { constructor() { this.limitSet_ = false; this.startSet_ = false; this.startNameSet_ = false; this.startAfterSet_ = false; // can only be true if startSet_ is true this.endSet_ = false; this.endNameSet_ = false; this.endBeforeSet_ = false; // can only be true if endSet_ is true this.limit_ = 0; this.viewFrom_ = ''; this.indexStartValue_ = null; this.indexStartName_ = ''; this.indexEndValue_ = null; this.indexEndName_ = ''; this.index_ = PRIORITY_INDEX; } hasStart() { return this.startSet_; } /** * @returns True if it would return from left. */ isViewFromLeft() { if (this.viewFrom_ === '') { // limit(), rather than limitToFirst or limitToLast was called. // This means that only one of startSet_ and endSet_ is true. Use them // to calculate which side of the view to anchor to. If neither is set, // anchor to the end. return this.startSet_; } else { return this.viewFrom_ === "l" /* WIRE_PROTOCOL_CONSTANTS.VIEW_FROM_LEFT */; } } /** * Only valid to call if hasStart() returns true */ getIndexStartValue() { assert(this.startSet_, 'Only valid if start has been set'); return this.indexStartValue_; } /** * Only valid to call if hasStart() returns true. * Returns the starting key name for the range defined by these query parameters */ getIndexStartName() { assert(this.startSet_, 'Only valid if start has been set'); if (this.startNameSet_) { return this.indexStartName_; } else { return MIN_NAME; } } hasEnd() { return this.endSet_; } /** * Only valid to call if hasEnd() returns true. */ getIndexEndValue() { assert(this.endSet_, 'Only valid if end has been set'); return this.indexEndValue_; } /** * Only valid to call if hasEnd() returns true. * Returns the end key name for the range defined by these query parameters */ getIndexEndName() { assert(this.endSet_, 'Only valid if end has been set'); if (this.endNameSet_) { return this.indexEndName_; } else { return MAX_NAME; } } hasLimit() { return this.limitSet_; } /** * @returns True if a limit has been set and it has been explicitly anchored */ hasAnchoredLimit() { return this.limitSet_ && this.viewFrom_ !== ''; } /** * Only valid to call if hasLimit() returns true */ getLimit() { assert(this.limitSet_, 'Only valid if limit has been set'); return this.limit_; } getIndex() { return this.index_; } loadsAllData() { return !(this.startSet_ || this.endSet_ || this.limitSet_); } isDefault() { return this.loadsAllData() && this.index_ === PRIORITY_INDEX; } copy() { const copy = new QueryParams(); copy.limitSet_ = this.limitSet_; copy.limit_ = this.limit_; copy.startSet_ = this.startSet_; copy.startAfterSet_ = this.startAfterSet_; copy.indexStartValue_ = this.indexStartValue_; copy.startNameSet_ = this.startNameSet_; copy.indexStartName_ = this.indexStartName_; copy.endSet_ = this.endSet_; copy.endBeforeSet_ = this.endBeforeSet_; copy.indexEndValue_ = this.indexEndValue_; copy.endNameSet_ = this.endNameSet_; copy.indexEndName_ = this.indexEndName_; copy.index_ = this.index_; copy.viewFrom_ = this.viewFrom_; return copy; } } function queryParamsGetNodeFilter(queryParams) { if (queryParams.loadsAllData()) { return new IndexedFilter(queryParams.getIndex()); } else if (queryParams.hasLimit()) { return new LimitedFilter(queryParams); } else { return new RangedFilter(queryParams); } } function queryParamsLimitToFirst(queryParams, newLimit) { const newParams = queryParams.copy(); newParams.limitSet_ = true; newParams.limit_ = newLimit; newParams.viewFrom_ = "l" /* WIRE_PROTOCOL_CONSTANTS.VIEW_FROM_LEFT */; return newParams; } function queryParamsLimitToLast(queryParams, newLimit) { const newParams = queryParams.copy(); newParams.limitSet_ = true; newParams.limit_ = newLimit; newParams.viewFrom_ = "r" /* WIRE_PROTOCOL_CONSTANTS.VIEW_FROM_RIGHT */; return newParams; } function queryParamsStartAt(queryParams, indexValue, key) { const newParams = queryParams.copy(); newParams.startSet_ = true; if (indexValue === undefined) { indexValue = null; } newParams.indexStartValue_ = indexValue; if (key != null) { newParams.startNameSet_ = true; newParams.indexStartName_ = key; } else { newParams.startNameSet_ = false; newParams.indexStartName_ = ''; } return newParams; } function queryParamsStartAfter(queryParams, indexValue, key) { let params; if (queryParams.index_ === KEY_INDEX || !!key) { params = queryParamsStartAt(queryParams, indexValue, key); } else { params = queryParamsStartAt(queryParams, indexValue, MAX_NAME); } params.startAfterSet_ = true; return params; } function queryParamsEndAt(queryParams, indexValue, key) { const newParams = queryParams.copy(); newParams.endSet_ = true; if (indexValue === undefined) { indexValue = null; } newParams.indexEndValue_ = indexValue; if (key !== undefined) { newParams.endNameSet_ = true; newParams.indexEndName_ = key; } else { newParams.endNameSet_ = false; newParams.indexEndName_ = ''; } return newParams; } function queryParamsEndBefore(queryParams, indexValue, key) { let params; if (queryParams.index_ === KEY_INDEX || !!key) { params = queryParamsEndAt(queryParams, indexValue, key); } else { params = queryParamsEndAt(queryParams, indexValue, MIN_NAME); } params.endBeforeSet_ = true; return params; } function queryParamsOrderBy(queryParams, index) { const newParams = queryParams.copy(); newParams.index_ = index; return newParams; } /** * Returns a set of REST query string parameters representing this query. * * @returns query string parameters */ function queryParamsToRestQueryStringParameters(queryParams) { const qs = {}; if (queryParams.isDefault()) { return qs; } let orderBy; if (queryParams.index_ === PRIORITY_INDEX) { orderBy = "$priority" /* REST_QUERY_CONSTANTS.PRIORITY_INDEX */; } else if (queryParams.index_ === VALUE_INDEX) { orderBy = "$value" /* REST_QUERY_CONSTANTS.VALUE_INDEX */; } else if (queryParams.index_ === KEY_INDEX) { orderBy = "$key" /* REST_QUERY_CONSTANTS.KEY_INDEX */; } else { assert(queryParams.index_ instanceof PathIndex, 'Unrecognized index type!'); orderBy = queryParams.index_.toString(); } qs["orderBy" /* REST_QUERY_CONSTANTS.ORDER_BY */] = stringify(orderBy); if (queryParams.startSet_) { const startParam = queryParams.startAfterSet_ ? "startAfter" /* REST_QUERY_CONSTANTS.START_AFTER */ : "startAt" /* REST_QUERY_CONSTANTS.START_AT */; qs[startParam] = stringify(queryParams.indexStartValue_); if (queryParams.startNameSet_) { qs[startParam] += ',' + stringify(queryParams.indexStartName_); } } if (queryParams.endSet_) { const endParam = queryParams.endBeforeSet_ ? "endBefore" /* REST_QUERY_CONSTANTS.END_BEFORE */ : "endAt" /* REST_QUERY_CONSTANTS.END_AT */; qs[endParam] = stringify(queryParams.indexEndValue_); if (queryParams.endNameSet_) { qs[endParam] += ',' + stringify(queryParams.indexEndName_); } } if (queryParams.limitSet_) { if (queryParams.isViewFromLeft()) { qs["limitToFirst" /* REST_QUERY_CONSTANTS.LIMIT_TO_FIRST */] = queryParams.limit_; } else { qs["limitToLast" /* REST_QUERY_CONSTANTS.LIMIT_TO_LAST */] = queryParams.limit_; } } return qs; } function queryParamsGetQueryObject(queryParams) { const obj = {}; if (queryParams.startSet_) { obj["sp" /* WIRE_PROTOCOL_CONSTANTS.INDEX_START_VALUE */] = queryParams.indexStartValue_; if (queryParams.startNameSet_) { obj["sn" /* WIRE_PROTOCOL_CONSTANTS.INDEX_START_NAME */] = queryParams.indexStartName_; } obj["sin" /* WIRE_PROTOCOL_CONSTANTS.INDEX_START_IS_INCLUSIVE */] = !queryParams.startAfterSet_; } if (queryParams.endSet_) { obj["ep" /* WIRE_PROTOCOL_CONSTANTS.INDEX_END_VALUE */] = queryParams.indexEndValue_; if (queryParams.endNameSet_) { obj["en" /* WIRE_PROTOCOL_CONSTANTS.INDEX_END_NAME */] = queryParams.indexEndName_; } obj["ein" /* WIRE_PROTOCOL_CONSTANTS.INDEX_END_IS_INCLUSIVE */] = !queryParams.endBeforeSet_; } if (queryParams.limitSet_) { obj["l" /* WIRE_PROTOCOL_CONSTANTS.LIMIT */] = queryParams.limit_; let viewFrom = queryParams.viewFrom_; if (viewFrom === '') { if (queryParams.isViewFromLeft()) { viewFrom = "l" /* WIRE_PROTOCOL_CONSTANTS.VIEW_FROM_LEFT */; } else { viewFrom = "r" /* WIRE_PROTOCOL_CONSTANTS.VIEW_FROM_RIGHT */; } } obj["vf" /* WIRE_PROTOCOL_CONSTANTS.VIEW_FROM */] = viewFrom; } // For now, priority index is the default, so we only specify if it's some other index if (queryParams.index_ !== PRIORITY_INDEX) { obj["i" /* WIRE_PROTOCOL_CONSTANTS.INDEX */] = queryParams.index_.toString(); } return obj; } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * An implementation of ServerActions that communicates with the server via REST requests. * This is mostly useful for compatibility with crawlers, where we don't want to spin up a full * persistent connection (using WebSockets or long-polling) */ class ReadonlyRestClient extends ServerActions { /** * @param repoInfo_ - Data about the namespace we are connecting to * @param onDataUpdate_ - A callback for new data from the server */ constructor(repoInfo_, onDataUpdate_, authTokenProvider_, appCheckTokenProvider_) { super(); this.repoInfo_ = repoInfo_; this.onDataUpdate_ = onDataUpdate_; this.authTokenProvider_ = authTokenProvider_; this.appCheckTokenProvider_ = appCheckTokenProvider_; /** @private {function(...[*])} */ this.log_ = logWrapper('p:rest:'); /** * We don't actually need to track listens, except to prevent us calling an onComplete for a listen * that's been removed. :-/ */ this.listens_ = {}; } reportStats(stats) { throw new Error('Method not implemented.'); } static getListenId_(query, tag) { if (tag !== undefined) { return 'tag$' + tag; } else { assert(query._queryParams.isDefault(), "should have a tag if it's not a default query."); return query._path.toString(); } } /** @inheritDoc */ listen(query, currentHashFn, tag, onComplete) { const pathString = query._path.toString(); this.log_('Listen called for ' + pathString + ' ' + query._queryIdentifier); // Mark this listener so we can tell if it's removed. const listenId = ReadonlyRestClient.getListenId_(query, tag); const thisListen = {}; this.listens_[listenId] = thisListen; const queryStringParameters = queryParamsToRestQueryStringParameters(query._queryParams); this.restRequest_(pathString + '.json', queryStringParameters, (error, result) => { let data = result; if (error === 404) { data = null; error = null; } if (error === null) { this.onDataUpdate_(pathString, data, /*isMerge=*/ false, tag); } if (safeGet(this.listens_, listenId) === thisListen) { let status; if (!error) { status = 'ok'; } else if (error === 401) { status = 'permission_denied'; } else { status = 'rest_error:' + error; } onComplete(status, null); } }); } /** @inheritDoc */ unlisten(query, tag) { const listenId = ReadonlyRestClient.getListenId_(query, tag); delete this.listens_[listenId]; } get(query) { const queryStringParameters = queryParamsToRestQueryStringParameters(query._queryParams); const pathString = query._path.toString(); const deferred = new Deferred(); this.restRequest_(pathString + '.json', queryStringParameters, (error, result) => { let data = result; if (error === 404) { data = null; error = null; } if (error === null) { this.onDataUpdate_(pathString, data, /*isMerge=*/ false, /*tag=*/ null); deferred.resolve(data); } else { deferred.reject(new Error(data)); } }); return deferred.promise; } /** @inheritDoc */ refreshAuthToken(token) { // no-op since we just always call getToken. } /** * Performs a REST request to the given path, with the provided query string parameters, * and any auth credentials we have. */ restRequest_(pathString, queryStringParameters = {}, callback) { queryStringParameters['format'] = 'export'; return Promise.all([ this.authTokenProvider_.getToken(/*forceRefresh=*/ false), this.appCheckTokenProvider_.getToken(/*forceRefresh=*/ false) ]).then(([authToken, appCheckToken]) => { if (authToken && authToken.accessToken) { queryStringParameters['auth'] = authToken.accessToken; } if (appCheckToken && appCheckToken.token) { queryStringParameters['ac'] = appCheckToken.token; } const url = (this.repoInfo_.secure ? 'https://' : 'http://') + this.repoInfo_.host + pathString + '?' + 'ns=' + this.repoInfo_.namespace + querystring(queryStringParameters); this.log_('Sending REST request for ' + url); const xhr = new XMLHttpRequest(); xhr.onreadystatechange = () => { if (callback && xhr.readyState === 4) { this.log_('REST Response for ' + url + ' received. status:', xhr.status, 'response:', xhr.responseText); let res = null; if (xhr.status >= 200 && xhr.status < 300) { try { res = jsonEval(xhr.responseText); } catch (e) { warn('Failed to parse JSON response for ' + url + ': ' + xhr.responseText); } callback(null, res); } else { // 401 and 404 are expected. if (xhr.status !== 401 && xhr.status !== 404) { warn('Got unsuccessful REST response for ' + url + ' Status: ' + xhr.status); } callback(xhr.status); } callback = null; } }; xhr.open('GET', url, /*asynchronous=*/ true); xhr.send(); }); } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Mutable object which basically just stores a reference to the "latest" immutable snapshot. */ class SnapshotHolder { constructor() { this.rootNode_ = ChildrenNode.EMPTY_NODE; } getNode(path) { return this.rootNode_.getChild(path); } updateSnapshot(path, newSnapshotNode) { this.rootNode_ = this.rootNode_.updateChild(path, newSnapshotNode); } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ function newSparseSnapshotTree() { return { value: null, children: new Map() }; } /** * Stores the given node at the specified path. If there is already a node * at a shallower path, it merges the new data into that snapshot node. * * @param path - Path to look up snapshot for. * @param data - The new data, or null. */ function sparseSnapshotTreeRemember(sparseSnapshotTree, path, data) { if (pathIsEmpty(path)) { sparseSnapshotTree.value = data; sparseSnapshotTree.children.clear(); } else if (sparseSnapshotTree.value !== null) { sparseSnapshotTree.value = sparseSnapshotTree.value.updateChild(path, data); } else { const childKey = pathGetFront(path); if (!sparseSnapshotTree.children.has(childKey)) { sparseSnapshotTree.children.set(childKey, newSparseSnapshotTree()); } const child = sparseSnapshotTree.children.get(childKey); path = pathPopFront(path); sparseSnapshotTreeRemember(child, path, data); } } /** * Purge the data at path from the cache. * * @param path - Path to look up snapshot for. * @returns True if this node should now be removed. */ function sparseSnapshotTreeForget(sparseSnapshotTree, path) { if (pathIsEmpty(path)) { sparseSnapshotTree.value = null; sparseSnapshotTree.children.clear(); return true; } else { if (sparseSnapshotTree.value !== null) { if (sparseSnapshotTree.value.isLeafNode()) { // We're trying to forget a node that doesn't exist return false; } else { const value = sparseSnapshotTree.value; sparseSnapshotTree.value = null; value.forEachChild(PRIORITY_INDEX, (key, tree) => { sparseSnapshotTreeRemember(sparseSnapshotTree, new Path(key), tree); }); return sparseSnapshotTreeForget(sparseSnapshotTree, path); } } else if (sparseSnapshotTree.children.size > 0) { const childKey = pathGetFront(path); path = pathPopFront(path); if (sparseSnapshotTree.children.has(childKey)) { const safeToRemove = sparseSnapshotTreeForget(sparseSnapshotTree.children.get(childKey), path); if (safeToRemove) { sparseSnapshotTree.children.delete(childKey); } } return sparseSnapshotTree.children.size === 0; } else { return true; } } } /** * Recursively iterates through all of the stored tree and calls the * callback on each one. * * @param prefixPath - Path to look up node for. * @param func - The function to invoke for each tree. */ function sparseSnapshotTreeForEachTree(sparseSnapshotTree, prefixPath, func) { if (sparseSnapshotTree.value !== null) { func(prefixPath, sparseSnapshotTree.value); } else { sparseSnapshotTreeForEachChild(sparseSnapshotTree, (key, tree) => { const path = new Path(prefixPath.toString() + '/' + key); sparseSnapshotTreeForEachTree(tree, path, func); }); } } /** * Iterates through each immediate child and triggers the callback. * Only seems to be used in tests. * * @param func - The function to invoke for each child. */ function sparseSnapshotTreeForEachChild(sparseSnapshotTree, func) { sparseSnapshotTree.children.forEach((tree, key) => { func(key, tree); }); } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Returns the delta from the previous call to get stats. * * @param collection_ - The collection to "listen" to. */ class StatsListener { constructor(collection_) { this.collection_ = collection_; this.last_ = null; } get() { const newStats = this.collection_.get(); const delta = Object.assign({}, newStats); if (this.last_) { each(this.last_, (stat, value) => { delta[stat] = delta[stat] - value; }); } this.last_ = newStats; return delta; } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ // Assuming some apps may have a short amount of time on page, and a bulk of firebase operations probably // happen on page load, we try to report our first set of stats pretty quickly, but we wait at least 10 // seconds to try to ensure the Firebase connection is established / settled. const FIRST_STATS_MIN_TIME = 10 * 1000; const FIRST_STATS_MAX_TIME = 30 * 1000; // We'll continue to report stats on average every 5 minutes. const REPORT_STATS_INTERVAL = 5 * 60 * 1000; class StatsReporter { constructor(collection, server_) { this.server_ = server_; this.statsToReport_ = {}; this.statsListener_ = new StatsListener(collection); const timeout = FIRST_STATS_MIN_TIME + (FIRST_STATS_MAX_TIME - FIRST_STATS_MIN_TIME) * Math.random(); setTimeoutNonBlocking(this.reportStats_.bind(this), Math.floor(timeout)); } reportStats_() { const stats = this.statsListener_.get(); const reportedStats = {}; let haveStatsToReport = false; each(stats, (stat, value) => { if (value > 0 && contains(this.statsToReport_, stat)) { reportedStats[stat] = value; haveStatsToReport = true; } }); if (haveStatsToReport) { this.server_.reportStats(reportedStats); } // queue our next run. setTimeoutNonBlocking(this.reportStats_.bind(this), Math.floor(Math.random() * 2 * REPORT_STATS_INTERVAL)); } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * * @enum */ var OperationType; (function (OperationType) { OperationType[OperationType["OVERWRITE"] = 0] = "OVERWRITE"; OperationType[OperationType["MERGE"] = 1] = "MERGE"; OperationType[OperationType["ACK_USER_WRITE"] = 2] = "ACK_USER_WRITE"; OperationType[OperationType["LISTEN_COMPLETE"] = 3] = "LISTEN_COMPLETE"; })(OperationType || (OperationType = {})); function newOperationSourceUser() { return { fromUser: true, fromServer: false, queryId: null, tagged: false }; } function newOperationSourceServer() { return { fromUser: false, fromServer: true, queryId: null, tagged: false }; } function newOperationSourceServerTaggedQuery(queryId) { return { fromUser: false, fromServer: true, queryId, tagged: true }; } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ class AckUserWrite { /** * @param affectedTree - A tree containing true for each affected path. Affected paths can't overlap. */ constructor( /** @inheritDoc */ path, /** @inheritDoc */ affectedTree, /** @inheritDoc */ revert) { this.path = path; this.affectedTree = affectedTree; this.revert = revert; /** @inheritDoc */ this.type = OperationType.ACK_USER_WRITE; /** @inheritDoc */ this.source = newOperationSourceUser(); } operationForChild(childName) { if (!pathIsEmpty(this.path)) { assert(pathGetFront(this.path) === childName, 'operationForChild called for unrelated child.'); return new AckUserWrite(pathPopFront(this.path), this.affectedTree, this.revert); } else if (this.affectedTree.value != null) { assert(this.affectedTree.children.isEmpty(), 'affectedTree should not have overlapping affected paths.'); // All child locations are affected as well; just return same operation. return this; } else { const childTree = this.affectedTree.subtree(new Path(childName)); return new AckUserWrite(newEmptyPath(), childTree, this.revert); } } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ class ListenComplete { constructor(source, path) { this.source = source; this.path = path; /** @inheritDoc */ this.type = OperationType.LISTEN_COMPLETE; } operationForChild(childName) { if (pathIsEmpty(this.path)) { return new ListenComplete(this.source, newEmptyPath()); } else { return new ListenComplete(this.source, pathPopFront(this.path)); } } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ class Overwrite { constructor(source, path, snap) { this.source = source; this.path = path; this.snap = snap; /** @inheritDoc */ this.type = OperationType.OVERWRITE; } operationForChild(childName) { if (pathIsEmpty(this.path)) { return new Overwrite(this.source, newEmptyPath(), this.snap.getImmediateChild(childName)); } else { return new Overwrite(this.source, pathPopFront(this.path), this.snap); } } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ class Merge { constructor( /** @inheritDoc */ source, /** @inheritDoc */ path, /** @inheritDoc */ children) { this.source = source; this.path = path; this.children = children; /** @inheritDoc */ this.type = OperationType.MERGE; } operationForChild(childName) { if (pathIsEmpty(this.path)) { const childTree = this.children.subtree(new Path(childName)); if (childTree.isEmpty()) { // This child is unaffected return null; } else if (childTree.value) { // We have a snapshot for the child in question. This becomes an overwrite of the child. return new Overwrite(this.source, newEmptyPath(), childTree.value); } else { // This is a merge at a deeper level return new Merge(this.source, newEmptyPath(), childTree); } } else { assert(pathGetFront(this.path) === childName, "Can't get a merge for a child not on the path of the operation"); return new Merge(this.source, pathPopFront(this.path), this.children); } } toString() { return ('Operation(' + this.path + ': ' + this.source.toString() + ' merge: ' + this.children.toString() + ')'); } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * A cache node only stores complete children. Additionally it holds a flag whether the node can be considered fully * initialized in the sense that we know at one point in time this represented a valid state of the world, e.g. * initialized with data from the server, or a complete overwrite by the client. The filtered flag also tracks * whether a node potentially had children removed due to a filter. */ class CacheNode { constructor(node_, fullyInitialized_, filtered_) { this.node_ = node_; this.fullyInitialized_ = fullyInitialized_; this.filtered_ = filtered_; } /** * Returns whether this node was fully initialized with either server data or a complete overwrite by the client */ isFullyInitialized() { return this.fullyInitialized_; } /** * Returns whether this node is potentially missing children due to a filter applied to the node */ isFiltered() { return this.filtered_; } isCompleteForPath(path) { if (pathIsEmpty(path)) { return this.isFullyInitialized() && !this.filtered_; } const childKey = pathGetFront(path); return this.isCompleteForChild(childKey); } isCompleteForChild(key) { return ((this.isFullyInitialized() && !this.filtered_) || this.node_.hasChild(key)); } getNode() { return this.node_; } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * An EventGenerator is used to convert "raw" changes (Change) as computed by the * CacheDiffer into actual events (Event) that can be raised. See generateEventsForChanges() * for details. * */ class EventGenerator { constructor(query_) { this.query_ = query_; this.index_ = this.query_._queryParams.getIndex(); } } /** * Given a set of raw changes (no moved events and prevName not specified yet), and a set of * EventRegistrations that should be notified of these changes, generate the actual events to be raised. * * Notes: * - child_moved events will be synthesized at this time for any child_changed events that affect * our index. * - prevName will be calculated based on the index ordering. */ function eventGeneratorGenerateEventsForChanges(eventGenerator, changes, eventCache, eventRegistrations) { const events = []; const moves = []; changes.forEach(change => { if (change.type === "child_changed" /* ChangeType.CHILD_CHANGED */ && eventGenerator.index_.indexedValueChanged(change.oldSnap, change.snapshotNode)) { moves.push(changeChildMoved(change.childName, change.snapshotNode)); } }); eventGeneratorGenerateEventsForType(eventGenerator, events, "child_removed" /* ChangeType.CHILD_REMOVED */, changes, eventRegistrations, eventCache); eventGeneratorGenerateEventsForType(eventGenerator, events, "child_added" /* ChangeType.CHILD_ADDED */, changes, eventRegistrations, eventCache); eventGeneratorGenerateEventsForType(eventGenerator, events, "child_moved" /* ChangeType.CHILD_MOVED */, moves, eventRegistrations, eventCache); eventGeneratorGenerateEventsForType(eventGenerator, events, "child_changed" /* ChangeType.CHILD_CHANGED */, changes, eventRegistrations, eventCache); eventGeneratorGenerateEventsForType(eventGenerator, events, "value" /* ChangeType.VALUE */, changes, eventRegistrations, eventCache); return events; } /** * Given changes of a single change type, generate the corresponding events. */ function eventGeneratorGenerateEventsForType(eventGenerator, events, eventType, changes, registrations, eventCache) { const filteredChanges = changes.filter(change => change.type === eventType); filteredChanges.sort((a, b) => eventGeneratorCompareChanges(eventGenerator, a, b)); filteredChanges.forEach(change => { const materializedChange = eventGeneratorMaterializeSingleChange(eventGenerator, change, eventCache); registrations.forEach(registration => { if (registration.respondsTo(change.type)) { events.push(registration.createEvent(materializedChange, eventGenerator.query_)); } }); }); } function eventGeneratorMaterializeSingleChange(eventGenerator, change, eventCache) { if (change.type === 'value' || change.type === 'child_removed') { return change; } else { change.prevName = eventCache.getPredecessorChildName(change.childName, change.snapshotNode, eventGenerator.index_); return change; } } function eventGeneratorCompareChanges(eventGenerator, a, b) { if (a.childName == null || b.childName == null) { throw assertionError('Should only compare child_ events.'); } const aWrapped = new NamedNode(a.childName, a.snapshotNode); const bWrapped = new NamedNode(b.childName, b.snapshotNode); return eventGenerator.index_.compare(aWrapped, bWrapped); } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ function newViewCache(eventCache, serverCache) { return { eventCache, serverCache }; } function viewCacheUpdateEventSnap(viewCache, eventSnap, complete, filtered) { return newViewCache(new CacheNode(eventSnap, complete, filtered), viewCache.serverCache); } function viewCacheUpdateServerSnap(viewCache, serverSnap, complete, filtered) { return newViewCache(viewCache.eventCache, new CacheNode(serverSnap, complete, filtered)); } function viewCacheGetCompleteEventSnap(viewCache) { return viewCache.eventCache.isFullyInitialized() ? viewCache.eventCache.getNode() : null; } function viewCacheGetCompleteServerSnap(viewCache) { return viewCache.serverCache.isFullyInitialized() ? viewCache.serverCache.getNode() : null; } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ let emptyChildrenSingleton; /** * Singleton empty children collection. * */ const EmptyChildren = () => { if (!emptyChildrenSingleton) { emptyChildrenSingleton = new SortedMap(stringCompare); } return emptyChildrenSingleton; }; /** * A tree with immutable elements. */ class ImmutableTree { constructor(value, children = EmptyChildren()) { this.value = value; this.children = children; } static fromObject(obj) { let tree = new ImmutableTree(null); each(obj, (childPath, childSnap) => { tree = tree.set(new Path(childPath), childSnap); }); return tree; } /** * True if the value is empty and there are no children */ isEmpty() { return this.value === null && this.children.isEmpty(); } /** * Given a path and predicate, return the first node and the path to that node * where the predicate returns true. * * TODO Do a perf test -- If we're creating a bunch of `{path: value:}` * objects on the way back out, it may be better to pass down a pathSoFar obj. * * @param relativePath - The remainder of the path * @param predicate - The predicate to satisfy to return a node */ findRootMostMatchingPathAndValue(relativePath, predicate) { if (this.value != null && predicate(this.value)) { return { path: newEmptyPath(), value: this.value }; } else { if (pathIsEmpty(relativePath)) { return null; } else { const front = pathGetFront(relativePath); const child = this.children.get(front); if (child !== null) { const childExistingPathAndValue = child.findRootMostMatchingPathAndValue(pathPopFront(relativePath), predicate); if (childExistingPathAndValue != null) { const fullPath = pathChild(new Path(front), childExistingPathAndValue.path); return { path: fullPath, value: childExistingPathAndValue.value }; } else { return null; } } else { return null; } } } } /** * Find, if it exists, the shortest subpath of the given path that points a defined * value in the tree */ findRootMostValueAndPath(relativePath) { return this.findRootMostMatchingPathAndValue(relativePath, () => true); } /** * @returns The subtree at the given path */ subtree(relativePath) { if (pathIsEmpty(relativePath)) { return this; } else { const front = pathGetFront(relativePath); const childTree = this.children.get(front); if (childTree !== null) { return childTree.subtree(pathPopFront(relativePath)); } else { return new ImmutableTree(null); } } } /** * Sets a value at the specified path. * * @param relativePath - Path to set value at. * @param toSet - Value to set. * @returns Resulting tree. */ set(relativePath, toSet) { if (pathIsEmpty(relativePath)) { return new ImmutableTree(toSet, this.children); } else { const front = pathGetFront(relativePath); const child = this.children.get(front) || new ImmutableTree(null); const newChild = child.set(pathPopFront(relativePath), toSet); const newChildren = this.children.insert(front, newChild); return new ImmutableTree(this.value, newChildren); } } /** * Removes the value at the specified path. * * @param relativePath - Path to value to remove. * @returns Resulting tree. */ remove(relativePath) { if (pathIsEmpty(relativePath)) { if (this.children.isEmpty()) { return new ImmutableTree(null); } else { return new ImmutableTree(null, this.children); } } else { const front = pathGetFront(relativePath); const child = this.children.get(front); if (child) { const newChild = child.remove(pathPopFront(relativePath)); let newChildren; if (newChild.isEmpty()) { newChildren = this.children.remove(front); } else { newChildren = this.children.insert(front, newChild); } if (this.value === null && newChildren.isEmpty()) { return new ImmutableTree(null); } else { return new ImmutableTree(this.value, newChildren); } } else { return this; } } } /** * Gets a value from the tree. * * @param relativePath - Path to get value for. * @returns Value at path, or null. */ get(relativePath) { if (pathIsEmpty(relativePath)) { return this.value; } else { const front = pathGetFront(relativePath); const child = this.children.get(front); if (child) { return child.get(pathPopFront(relativePath)); } else { return null; } } } /** * Replace the subtree at the specified path with the given new tree. * * @param relativePath - Path to replace subtree for. * @param newTree - New tree. * @returns Resulting tree. */ setTree(relativePath, newTree) { if (pathIsEmpty(relativePath)) { return newTree; } else { const front = pathGetFront(relativePath); const child = this.children.get(front) || new ImmutableTree(null); const newChild = child.setTree(pathPopFront(relativePath), newTree); let newChildren; if (newChild.isEmpty()) { newChildren = this.children.remove(front); } else { newChildren = this.children.insert(front, newChild); } return new ImmutableTree(this.value, newChildren); } } /** * Performs a depth first fold on this tree. Transforms a tree into a single * value, given a function that operates on the path to a node, an optional * current value, and a map of child names to folded subtrees */ fold(fn) { return this.fold_(newEmptyPath(), fn); } /** * Recursive helper for public-facing fold() method */ fold_(pathSoFar, fn) { const accum = {}; this.children.inorderTraversal((childKey, childTree) => { accum[childKey] = childTree.fold_(pathChild(pathSoFar, childKey), fn); }); return fn(pathSoFar, this.value, accum); } /** * Find the first matching value on the given path. Return the result of applying f to it. */ findOnPath(path, f) { return this.findOnPath_(path, newEmptyPath(), f); } findOnPath_(pathToFollow, pathSoFar, f) { const result = this.value ? f(pathSoFar, this.value) : false; if (result) { return result; } else { if (pathIsEmpty(pathToFollow)) { return null; } else { const front = pathGetFront(pathToFollow); const nextChild = this.children.get(front); if (nextChild) { return nextChild.findOnPath_(pathPopFront(pathToFollow), pathChild(pathSoFar, front), f); } else { return null; } } } } foreachOnPath(path, f) { return this.foreachOnPath_(path, newEmptyPath(), f); } foreachOnPath_(pathToFollow, currentRelativePath, f) { if (pathIsEmpty(pathToFollow)) { return this; } else { if (this.value) { f(currentRelativePath, this.value); } const front = pathGetFront(pathToFollow); const nextChild = this.children.get(front); if (nextChild) { return nextChild.foreachOnPath_(pathPopFront(pathToFollow), pathChild(currentRelativePath, front), f); } else { return new ImmutableTree(null); } } } /** * Calls the given function for each node in the tree that has a value. * * @param f - A function to be called with the path from the root of the tree to * a node, and the value at that node. Called in depth-first order. */ foreach(f) { this.foreach_(newEmptyPath(), f); } foreach_(currentRelativePath, f) { this.children.inorderTraversal((childName, childTree) => { childTree.foreach_(pathChild(currentRelativePath, childName), f); }); if (this.value) { f(currentRelativePath, this.value); } } foreachChild(f) { this.children.inorderTraversal((childName, childTree) => { if (childTree.value) { f(childName, childTree.value); } }); } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * This class holds a collection of writes that can be applied to nodes in unison. It abstracts away the logic with * dealing with priority writes and multiple nested writes. At any given path there is only allowed to be one write * modifying that path. Any write to an existing path or shadowing an existing path will modify that existing write * to reflect the write added. */ class CompoundWrite { constructor(writeTree_) { this.writeTree_ = writeTree_; } static empty() { return new CompoundWrite(new ImmutableTree(null)); } } function compoundWriteAddWrite(compoundWrite, path, node) { if (pathIsEmpty(path)) { return new CompoundWrite(new ImmutableTree(node)); } else { const rootmost = compoundWrite.writeTree_.findRootMostValueAndPath(path); if (rootmost != null) { const rootMostPath = rootmost.path; let value = rootmost.value; const relativePath = newRelativePath(rootMostPath, path); value = value.updateChild(relativePath, node); return new CompoundWrite(compoundWrite.writeTree_.set(rootMostPath, value)); } else { const subtree = new ImmutableTree(node); const newWriteTree = compoundWrite.writeTree_.setTree(path, subtree); return new CompoundWrite(newWriteTree); } } } function compoundWriteAddWrites(compoundWrite, path, updates) { let newWrite = compoundWrite; each(updates, (childKey, node) => { newWrite = compoundWriteAddWrite(newWrite, pathChild(path, childKey), node); }); return newWrite; } /** * Will remove a write at the given path and deeper paths. This will not modify a write at a higher * location, which must be removed by calling this method with that path. * * @param compoundWrite - The CompoundWrite to remove. * @param path - The path at which a write and all deeper writes should be removed * @returns The new CompoundWrite with the removed path */ function compoundWriteRemoveWrite(compoundWrite, path) { if (pathIsEmpty(path)) { return CompoundWrite.empty(); } else { const newWriteTree = compoundWrite.writeTree_.setTree(path, new ImmutableTree(null)); return new CompoundWrite(newWriteTree); } } /** * Returns whether this CompoundWrite will fully overwrite a node at a given location and can therefore be * considered "complete". * * @param compoundWrite - The CompoundWrite to check. * @param path - The path to check for * @returns Whether there is a complete write at that path */ function compoundWriteHasCompleteWrite(compoundWrite, path) { return compoundWriteGetCompleteNode(compoundWrite, path) != null; } /** * Returns a node for a path if and only if the node is a "complete" overwrite at that path. This will not aggregate * writes from deeper paths, but will return child nodes from a more shallow path. * * @param compoundWrite - The CompoundWrite to get the node from. * @param path - The path to get a complete write * @returns The node if complete at that path, or null otherwise. */ function compoundWriteGetCompleteNode(compoundWrite, path) { const rootmost = compoundWrite.writeTree_.findRootMostValueAndPath(path); if (rootmost != null) { return compoundWrite.writeTree_ .get(rootmost.path) .getChild(newRelativePath(rootmost.path, path)); } else { return null; } } /** * Returns all children that are guaranteed to be a complete overwrite. * * @param compoundWrite - The CompoundWrite to get children from. * @returns A list of all complete children. */ function compoundWriteGetCompleteChildren(compoundWrite) { const children = []; const node = compoundWrite.writeTree_.value; if (node != null) { // If it's a leaf node, it has no children; so nothing to do. if (!node.isLeafNode()) { node.forEachChild(PRIORITY_INDEX, (childName, childNode) => { children.push(new NamedNode(childName, childNode)); }); } } else { compoundWrite.writeTree_.children.inorderTraversal((childName, childTree) => { if (childTree.value != null) { children.push(new NamedNode(childName, childTree.value)); } }); } return children; } function compoundWriteChildCompoundWrite(compoundWrite, path) { if (pathIsEmpty(path)) { return compoundWrite; } else { const shadowingNode = compoundWriteGetCompleteNode(compoundWrite, path); if (shadowingNode != null) { return new CompoundWrite(new ImmutableTree(shadowingNode)); } else { return new CompoundWrite(compoundWrite.writeTree_.subtree(path)); } } } /** * Returns true if this CompoundWrite is empty and therefore does not modify any nodes. * @returns Whether this CompoundWrite is empty */ function compoundWriteIsEmpty(compoundWrite) { return compoundWrite.writeTree_.isEmpty(); } /** * Applies this CompoundWrite to a node. The node is returned with all writes from this CompoundWrite applied to the * node * @param node - The node to apply this CompoundWrite to * @returns The node with all writes applied */ function compoundWriteApply(compoundWrite, node) { return applySubtreeWrite(newEmptyPath(), compoundWrite.writeTree_, node); } function applySubtreeWrite(relativePath, writeTree, node) { if (writeTree.value != null) { // Since there a write is always a leaf, we're done here return node.updateChild(relativePath, writeTree.value); } else { let priorityWrite = null; writeTree.children.inorderTraversal((childKey, childTree) => { if (childKey === '.priority') { // Apply priorities at the end so we don't update priorities for either empty nodes or forget // to apply priorities to empty nodes that are later filled assert(childTree.value !== null, 'Priority writes must always be leaf nodes'); priorityWrite = childTree.value; } else { node = applySubtreeWrite(pathChild(relativePath, childKey), childTree, node); } }); // If there was a priority write, we only apply it if the node is not empty if (!node.getChild(relativePath).isEmpty() && priorityWrite !== null) { node = node.updateChild(pathChild(relativePath, '.priority'), priorityWrite); } return node; } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Create a new WriteTreeRef for the given path. For use with a new sync point at the given path. * */ function writeTreeChildWrites(writeTree, path) { return newWriteTreeRef(path, writeTree); } /** * Record a new overwrite from user code. * * @param visible - This is set to false by some transactions. It should be excluded from event caches */ function writeTreeAddOverwrite(writeTree, path, snap, writeId, visible) { assert(writeId > writeTree.lastWriteId, 'Stacking an older write on top of newer ones'); if (visible === undefined) { visible = true; } writeTree.allWrites.push({ path, snap, writeId, visible }); if (visible) { writeTree.visibleWrites = compoundWriteAddWrite(writeTree.visibleWrites, path, snap); } writeTree.lastWriteId = writeId; } /** * Record a new merge from user code. */ function writeTreeAddMerge(writeTree, path, changedChildren, writeId) { assert(writeId > writeTree.lastWriteId, 'Stacking an older merge on top of newer ones'); writeTree.allWrites.push({ path, children: changedChildren, writeId, visible: true }); writeTree.visibleWrites = compoundWriteAddWrites(writeTree.visibleWrites, path, changedChildren); writeTree.lastWriteId = writeId; } function writeTreeGetWrite(writeTree, writeId) { for (let i = 0; i < writeTree.allWrites.length; i++) { const record = writeTree.allWrites[i]; if (record.writeId === writeId) { return record; } } return null; } /** * Remove a write (either an overwrite or merge) that has been successfully acknowledge by the server. Recalculates * the tree if necessary. We return true if it may have been visible, meaning views need to reevaluate. * * @returns true if the write may have been visible (meaning we'll need to reevaluate / raise * events as a result). */ function writeTreeRemoveWrite(writeTree, writeId) { // Note: disabling this check. It could be a transaction that preempted another transaction, and thus was applied // out of order. //const validClear = revert || this.allWrites_.length === 0 || writeId <= this.allWrites_[0].writeId; //assert(validClear, "Either we don't have this write, or it's the first one in the queue"); const idx = writeTree.allWrites.findIndex(s => { return s.writeId === writeId; }); assert(idx >= 0, 'removeWrite called with nonexistent writeId.'); const writeToRemove = writeTree.allWrites[idx]; writeTree.allWrites.splice(idx, 1); let removedWriteWasVisible = writeToRemove.visible; let removedWriteOverlapsWithOtherWrites = false; let i = writeTree.allWrites.length - 1; while (removedWriteWasVisible && i >= 0) { const currentWrite = writeTree.allWrites[i]; if (currentWrite.visible) { if (i >= idx && writeTreeRecordContainsPath_(currentWrite, writeToRemove.path)) { // The removed write was completely shadowed by a subsequent write. removedWriteWasVisible = false; } else if (pathContains(writeToRemove.path, currentWrite.path)) { // Either we're covering some writes or they're covering part of us (depending on which came first). removedWriteOverlapsWithOtherWrites = true; } } i--; } if (!removedWriteWasVisible) { return false; } else if (removedWriteOverlapsWithOtherWrites) { // There's some shadowing going on. Just rebuild the visible writes from scratch. writeTreeResetTree_(writeTree); return true; } else { // There's no shadowing. We can safely just remove the write(s) from visibleWrites. if (writeToRemove.snap) { writeTree.visibleWrites = compoundWriteRemoveWrite(writeTree.visibleWrites, writeToRemove.path); } else { const children = writeToRemove.children; each(children, (childName) => { writeTree.visibleWrites = compoundWriteRemoveWrite(writeTree.visibleWrites, pathChild(writeToRemove.path, childName)); }); } return true; } } function writeTreeRecordContainsPath_(writeRecord, path) { if (writeRecord.snap) { return pathContains(writeRecord.path, path); } else { for (const childName in writeRecord.children) { if (writeRecord.children.hasOwnProperty(childName) && pathContains(pathChild(writeRecord.path, childName), path)) { return true; } } return false; } } /** * Re-layer the writes and merges into a tree so we can efficiently calculate event snapshots */ function writeTreeResetTree_(writeTree) { writeTree.visibleWrites = writeTreeLayerTree_(writeTree.allWrites, writeTreeDefaultFilter_, newEmptyPath()); if (writeTree.allWrites.length > 0) { writeTree.lastWriteId = writeTree.allWrites[writeTree.allWrites.length - 1].writeId; } else { writeTree.lastWriteId = -1; } } /** * The default filter used when constructing the tree. Keep everything that's visible. */ function writeTreeDefaultFilter_(write) { return write.visible; } /** * Static method. Given an array of WriteRecords, a filter for which ones to include, and a path, construct the tree of * event data at that path. */ function writeTreeLayerTree_(writes, filter, treeRoot) { let compoundWrite = CompoundWrite.empty(); for (let i = 0; i < writes.length; ++i) { const write = writes[i]; // Theory, a later set will either: // a) abort a relevant transaction, so no need to worry about excluding it from calculating that transaction // b) not be relevant to a transaction (separate branch), so again will not affect the data for that transaction if (filter(write)) { const writePath = write.path; let relativePath; if (write.snap) { if (pathContains(treeRoot, writePath)) { relativePath = newRelativePath(treeRoot, writePath); compoundWrite = compoundWriteAddWrite(compoundWrite, relativePath, write.snap); } else if (pathContains(writePath, treeRoot)) { relativePath = newRelativePath(writePath, treeRoot); compoundWrite = compoundWriteAddWrite(compoundWrite, newEmptyPath(), write.snap.getChild(relativePath)); } else ; } else if (write.children) { if (pathContains(treeRoot, writePath)) { relativePath = newRelativePath(treeRoot, writePath); compoundWrite = compoundWriteAddWrites(compoundWrite, relativePath, write.children); } else if (pathContains(writePath, treeRoot)) { relativePath = newRelativePath(writePath, treeRoot); if (pathIsEmpty(relativePath)) { compoundWrite = compoundWriteAddWrites(compoundWrite, newEmptyPath(), write.children); } else { const child = safeGet(write.children, pathGetFront(relativePath)); if (child) { // There exists a child in this node that matches the root path const deepNode = child.getChild(pathPopFront(relativePath)); compoundWrite = compoundWriteAddWrite(compoundWrite, newEmptyPath(), deepNode); } } } else ; } else { throw assertionError('WriteRecord should have .snap or .children'); } } } return compoundWrite; } /** * Given optional, underlying server data, and an optional set of constraints (exclude some sets, include hidden * writes), attempt to calculate a complete snapshot for the given path * * @param writeIdsToExclude - An optional set to be excluded * @param includeHiddenWrites - Defaults to false, whether or not to layer on writes with visible set to false */ function writeTreeCalcCompleteEventCache(writeTree, treePath, completeServerCache, writeIdsToExclude, includeHiddenWrites) { if (!writeIdsToExclude && !includeHiddenWrites) { const shadowingNode = compoundWriteGetCompleteNode(writeTree.visibleWrites, treePath); if (shadowingNode != null) { return shadowingNode; } else { const subMerge = compoundWriteChildCompoundWrite(writeTree.visibleWrites, treePath); if (compoundWriteIsEmpty(subMerge)) { return completeServerCache; } else if (completeServerCache == null && !compoundWriteHasCompleteWrite(subMerge, newEmptyPath())) { // We wouldn't have a complete snapshot, since there's no underlying data and no complete shadow return null; } else { const layeredCache = completeServerCache || ChildrenNode.EMPTY_NODE; return compoundWriteApply(subMerge, layeredCache); } } } else { const merge = compoundWriteChildCompoundWrite(writeTree.visibleWrites, treePath); if (!includeHiddenWrites && compoundWriteIsEmpty(merge)) { return completeServerCache; } else { // If the server cache is null, and we don't have a complete cache, we need to return null if (!includeHiddenWrites && completeServerCache == null && !compoundWriteHasCompleteWrite(merge, newEmptyPath())) { return null; } else { const filter = function (write) { return ((write.visible || includeHiddenWrites) && (!writeIdsToExclude || !~writeIdsToExclude.indexOf(write.writeId)) && (pathContains(write.path, treePath) || pathContains(treePath, write.path))); }; const mergeAtPath = writeTreeLayerTree_(writeTree.allWrites, filter, treePath); const layeredCache = completeServerCache || ChildrenNode.EMPTY_NODE; return compoundWriteApply(mergeAtPath, layeredCache); } } } } /** * With optional, underlying server data, attempt to return a children node of children that we have complete data for. * Used when creating new views, to pre-fill their complete event children snapshot. */ function writeTreeCalcCompleteEventChildren(writeTree, treePath, completeServerChildren) { let completeChildren = ChildrenNode.EMPTY_NODE; const topLevelSet = compoundWriteGetCompleteNode(writeTree.visibleWrites, treePath); if (topLevelSet) { if (!topLevelSet.isLeafNode()) { // we're shadowing everything. Return the children. topLevelSet.forEachChild(PRIORITY_INDEX, (childName, childSnap) => { completeChildren = completeChildren.updateImmediateChild(childName, childSnap); }); } return completeChildren; } else if (completeServerChildren) { // Layer any children we have on top of this // We know we don't have a top-level set, so just enumerate existing children const merge = compoundWriteChildCompoundWrite(writeTree.visibleWrites, treePath); completeServerChildren.forEachChild(PRIORITY_INDEX, (childName, childNode) => { const node = compoundWriteApply(compoundWriteChildCompoundWrite(merge, new Path(childName)), childNode); completeChildren = completeChildren.updateImmediateChild(childName, node); }); // Add any complete children we have from the set compoundWriteGetCompleteChildren(merge).forEach(namedNode => { completeChildren = completeChildren.updateImmediateChild(namedNode.name, namedNode.node); }); return completeChildren; } else { // We don't have anything to layer on top of. Layer on any children we have // Note that we can return an empty snap if we have a defined delete const merge = compoundWriteChildCompoundWrite(writeTree.visibleWrites, treePath); compoundWriteGetCompleteChildren(merge).forEach(namedNode => { completeChildren = completeChildren.updateImmediateChild(namedNode.name, namedNode.node); }); return completeChildren; } } /** * Given that the underlying server data has updated, determine what, if anything, needs to be * applied to the event cache. * * Possibilities: * * 1. No writes are shadowing. Events should be raised, the snap to be applied comes from the server data * * 2. Some write is completely shadowing. No events to be raised * * 3. Is partially shadowed. Events * * Either existingEventSnap or existingServerSnap must exist */ function writeTreeCalcEventCacheAfterServerOverwrite(writeTree, treePath, childPath, existingEventSnap, existingServerSnap) { assert(existingEventSnap || existingServerSnap, 'Either existingEventSnap or existingServerSnap must exist'); const path = pathChild(treePath, childPath); if (compoundWriteHasCompleteWrite(writeTree.visibleWrites, path)) { // At this point we can probably guarantee that we're in case 2, meaning no events // May need to check visibility while doing the findRootMostValueAndPath call return null; } else { // No complete shadowing. We're either partially shadowing or not shadowing at all. const childMerge = compoundWriteChildCompoundWrite(writeTree.visibleWrites, path); if (compoundWriteIsEmpty(childMerge)) { // We're not shadowing at all. Case 1 return existingServerSnap.getChild(childPath); } else { // This could be more efficient if the serverNode + updates doesn't change the eventSnap // However this is tricky to find out, since user updates don't necessary change the server // snap, e.g. priority updates on empty nodes, or deep deletes. Another special case is if the server // adds nodes, but doesn't change any existing writes. It is therefore not enough to // only check if the updates change the serverNode. // Maybe check if the merge tree contains these special cases and only do a full overwrite in that case? return compoundWriteApply(childMerge, existingServerSnap.getChild(childPath)); } } } /** * Returns a complete child for a given server snap after applying all user writes or null if there is no * complete child for this ChildKey. */ function writeTreeCalcCompleteChild(writeTree, treePath, childKey, existingServerSnap) { const path = pathChild(treePath, childKey); const shadowingNode = compoundWriteGetCompleteNode(writeTree.visibleWrites, path); if (shadowingNode != null) { return shadowingNode; } else { if (existingServerSnap.isCompleteForChild(childKey)) { const childMerge = compoundWriteChildCompoundWrite(writeTree.visibleWrites, path); return compoundWriteApply(childMerge, existingServerSnap.getNode().getImmediateChild(childKey)); } else { return null; } } } /** * Returns a node if there is a complete overwrite for this path. More specifically, if there is a write at * a higher path, this will return the child of that write relative to the write and this path. * Returns null if there is no write at this path. */ function writeTreeShadowingWrite(writeTree, path) { return compoundWriteGetCompleteNode(writeTree.visibleWrites, path); } /** * This method is used when processing child remove events on a query. If we can, we pull in children that were outside * the window, but may now be in the window. */ function writeTreeCalcIndexedSlice(writeTree, treePath, completeServerData, startPost, count, reverse, index) { let toIterate; const merge = compoundWriteChildCompoundWrite(writeTree.visibleWrites, treePath); const shadowingNode = compoundWriteGetCompleteNode(merge, newEmptyPath()); if (shadowingNode != null) { toIterate = shadowingNode; } else if (completeServerData != null) { toIterate = compoundWriteApply(merge, completeServerData); } else { // no children to iterate on return []; } toIterate = toIterate.withIndex(index); if (!toIterate.isEmpty() && !toIterate.isLeafNode()) { const nodes = []; const cmp = index.getCompare(); const iter = reverse ? toIterate.getReverseIteratorFrom(startPost, index) : toIterate.getIteratorFrom(startPost, index); let next = iter.getNext(); while (next && nodes.length < count) { if (cmp(next, startPost) !== 0) { nodes.push(next); } next = iter.getNext(); } return nodes; } else { return []; } } function newWriteTree() { return { visibleWrites: CompoundWrite.empty(), allWrites: [], lastWriteId: -1 }; } /** * If possible, returns a complete event cache, using the underlying server data if possible. In addition, can be used * to get a cache that includes hidden writes, and excludes arbitrary writes. Note that customizing the returned node * can lead to a more expensive calculation. * * @param writeIdsToExclude - Optional writes to exclude. * @param includeHiddenWrites - Defaults to false, whether or not to layer on writes with visible set to false */ function writeTreeRefCalcCompleteEventCache(writeTreeRef, completeServerCache, writeIdsToExclude, includeHiddenWrites) { return writeTreeCalcCompleteEventCache(writeTreeRef.writeTree, writeTreeRef.treePath, completeServerCache, writeIdsToExclude, includeHiddenWrites); } /** * If possible, returns a children node containing all of the complete children we have data for. The returned data is a * mix of the given server data and write data. * */ function writeTreeRefCalcCompleteEventChildren(writeTreeRef, completeServerChildren) { return writeTreeCalcCompleteEventChildren(writeTreeRef.writeTree, writeTreeRef.treePath, completeServerChildren); } /** * Given that either the underlying server data has updated or the outstanding writes have updated, determine what, * if anything, needs to be applied to the event cache. * * Possibilities: * * 1. No writes are shadowing. Events should be raised, the snap to be applied comes from the server data * * 2. Some write is completely shadowing. No events to be raised * * 3. Is partially shadowed. Events should be raised * * Either existingEventSnap or existingServerSnap must exist, this is validated via an assert * * */ function writeTreeRefCalcEventCacheAfterServerOverwrite(writeTreeRef, path, existingEventSnap, existingServerSnap) { return writeTreeCalcEventCacheAfterServerOverwrite(writeTreeRef.writeTree, writeTreeRef.treePath, path, existingEventSnap, existingServerSnap); } /** * Returns a node if there is a complete overwrite for this path. More specifically, if there is a write at * a higher path, this will return the child of that write relative to the write and this path. * Returns null if there is no write at this path. * */ function writeTreeRefShadowingWrite(writeTreeRef, path) { return writeTreeShadowingWrite(writeTreeRef.writeTree, pathChild(writeTreeRef.treePath, path)); } /** * This method is used when processing child remove events on a query. If we can, we pull in children that were outside * the window, but may now be in the window */ function writeTreeRefCalcIndexedSlice(writeTreeRef, completeServerData, startPost, count, reverse, index) { return writeTreeCalcIndexedSlice(writeTreeRef.writeTree, writeTreeRef.treePath, completeServerData, startPost, count, reverse, index); } /** * Returns a complete child for a given server snap after applying all user writes or null if there is no * complete child for this ChildKey. */ function writeTreeRefCalcCompleteChild(writeTreeRef, childKey, existingServerCache) { return writeTreeCalcCompleteChild(writeTreeRef.writeTree, writeTreeRef.treePath, childKey, existingServerCache); } /** * Return a WriteTreeRef for a child. */ function writeTreeRefChild(writeTreeRef, childName) { return newWriteTreeRef(pathChild(writeTreeRef.treePath, childName), writeTreeRef.writeTree); } function newWriteTreeRef(path, writeTree) { return { treePath: path, writeTree }; } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ class ChildChangeAccumulator { constructor() { this.changeMap = new Map(); } trackChildChange(change) { const type = change.type; const childKey = change.childName; assert(type === "child_added" /* ChangeType.CHILD_ADDED */ || type === "child_changed" /* ChangeType.CHILD_CHANGED */ || type === "child_removed" /* ChangeType.CHILD_REMOVED */, 'Only child changes supported for tracking'); assert(childKey !== '.priority', 'Only non-priority child changes can be tracked.'); const oldChange = this.changeMap.get(childKey); if (oldChange) { const oldType = oldChange.type; if (type === "child_added" /* ChangeType.CHILD_ADDED */ && oldType === "child_removed" /* ChangeType.CHILD_REMOVED */) { this.changeMap.set(childKey, changeChildChanged(childKey, change.snapshotNode, oldChange.snapshotNode)); } else if (type === "child_removed" /* ChangeType.CHILD_REMOVED */ && oldType === "child_added" /* ChangeType.CHILD_ADDED */) { this.changeMap.delete(childKey); } else if (type === "child_removed" /* ChangeType.CHILD_REMOVED */ && oldType === "child_changed" /* ChangeType.CHILD_CHANGED */) { this.changeMap.set(childKey, changeChildRemoved(childKey, oldChange.oldSnap)); } else if (type === "child_changed" /* ChangeType.CHILD_CHANGED */ && oldType === "child_added" /* ChangeType.CHILD_ADDED */) { this.changeMap.set(childKey, changeChildAdded(childKey, change.snapshotNode)); } else if (type === "child_changed" /* ChangeType.CHILD_CHANGED */ && oldType === "child_changed" /* ChangeType.CHILD_CHANGED */) { this.changeMap.set(childKey, changeChildChanged(childKey, change.snapshotNode, oldChange.oldSnap)); } else { throw assertionError('Illegal combination of changes: ' + change + ' occurred after ' + oldChange); } } else { this.changeMap.set(childKey, change); } } getChanges() { return Array.from(this.changeMap.values()); } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * An implementation of CompleteChildSource that never returns any additional children */ // eslint-disable-next-line @typescript-eslint/naming-convention class NoCompleteChildSource_ { getCompleteChild(childKey) { return null; } getChildAfterChild(index, child, reverse) { return null; } } /** * Singleton instance. */ const NO_COMPLETE_CHILD_SOURCE = new NoCompleteChildSource_(); /** * An implementation of CompleteChildSource that uses a WriteTree in addition to any other server data or * old event caches available to calculate complete children. */ class WriteTreeCompleteChildSource { constructor(writes_, viewCache_, optCompleteServerCache_ = null) { this.writes_ = writes_; this.viewCache_ = viewCache_; this.optCompleteServerCache_ = optCompleteServerCache_; } getCompleteChild(childKey) { const node = this.viewCache_.eventCache; if (node.isCompleteForChild(childKey)) { return node.getNode().getImmediateChild(childKey); } else { const serverNode = this.optCompleteServerCache_ != null ? new CacheNode(this.optCompleteServerCache_, true, false) : this.viewCache_.serverCache; return writeTreeRefCalcCompleteChild(this.writes_, childKey, serverNode); } } getChildAfterChild(index, child, reverse) { const completeServerData = this.optCompleteServerCache_ != null ? this.optCompleteServerCache_ : viewCacheGetCompleteServerSnap(this.viewCache_); const nodes = writeTreeRefCalcIndexedSlice(this.writes_, completeServerData, child, 1, reverse, index); if (nodes.length === 0) { return null; } else { return nodes[0]; } } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ function newViewProcessor(filter) { return { filter }; } function viewProcessorAssertIndexed(viewProcessor, viewCache) { assert(viewCache.eventCache.getNode().isIndexed(viewProcessor.filter.getIndex()), 'Event snap not indexed'); assert(viewCache.serverCache.getNode().isIndexed(viewProcessor.filter.getIndex()), 'Server snap not indexed'); } function viewProcessorApplyOperation(viewProcessor, oldViewCache, operation, writesCache, completeCache) { const accumulator = new ChildChangeAccumulator(); let newViewCache, filterServerNode; if (operation.type === OperationType.OVERWRITE) { const overwrite = operation; if (overwrite.source.fromUser) { newViewCache = viewProcessorApplyUserOverwrite(viewProcessor, oldViewCache, overwrite.path, overwrite.snap, writesCache, completeCache, accumulator); } else { assert(overwrite.source.fromServer, 'Unknown source.'); // We filter the node if it's a tagged update or the node has been previously filtered and the // update is not at the root in which case it is ok (and necessary) to mark the node unfiltered // again filterServerNode = overwrite.source.tagged || (oldViewCache.serverCache.isFiltered() && !pathIsEmpty(overwrite.path)); newViewCache = viewProcessorApplyServerOverwrite(viewProcessor, oldViewCache, overwrite.path, overwrite.snap, writesCache, completeCache, filterServerNode, accumulator); } } else if (operation.type === OperationType.MERGE) { const merge = operation; if (merge.source.fromUser) { newViewCache = viewProcessorApplyUserMerge(viewProcessor, oldViewCache, merge.path, merge.children, writesCache, completeCache, accumulator); } else { assert(merge.source.fromServer, 'Unknown source.'); // We filter the node if it's a tagged update or the node has been previously filtered filterServerNode = merge.source.tagged || oldViewCache.serverCache.isFiltered(); newViewCache = viewProcessorApplyServerMerge(viewProcessor, oldViewCache, merge.path, merge.children, writesCache, completeCache, filterServerNode, accumulator); } } else if (operation.type === OperationType.ACK_USER_WRITE) { const ackUserWrite = operation; if (!ackUserWrite.revert) { newViewCache = viewProcessorAckUserWrite(viewProcessor, oldViewCache, ackUserWrite.path, ackUserWrite.affectedTree, writesCache, completeCache, accumulator); } else { newViewCache = viewProcessorRevertUserWrite(viewProcessor, oldViewCache, ackUserWrite.path, writesCache, completeCache, accumulator); } } else if (operation.type === OperationType.LISTEN_COMPLETE) { newViewCache = viewProcessorListenComplete(viewProcessor, oldViewCache, operation.path, writesCache, accumulator); } else { throw assertionError('Unknown operation type: ' + operation.type); } const changes = accumulator.getChanges(); viewProcessorMaybeAddValueEvent(oldViewCache, newViewCache, changes); return { viewCache: newViewCache, changes }; } function viewProcessorMaybeAddValueEvent(oldViewCache, newViewCache, accumulator) { const eventSnap = newViewCache.eventCache; if (eventSnap.isFullyInitialized()) { const isLeafOrEmpty = eventSnap.getNode().isLeafNode() || eventSnap.getNode().isEmpty(); const oldCompleteSnap = viewCacheGetCompleteEventSnap(oldViewCache); if (accumulator.length > 0 || !oldViewCache.eventCache.isFullyInitialized() || (isLeafOrEmpty && !eventSnap.getNode().equals(oldCompleteSnap)) || !eventSnap.getNode().getPriority().equals(oldCompleteSnap.getPriority())) { accumulator.push(changeValue(viewCacheGetCompleteEventSnap(newViewCache))); } } } function viewProcessorGenerateEventCacheAfterServerEvent(viewProcessor, viewCache, changePath, writesCache, source, accumulator) { const oldEventSnap = viewCache.eventCache; if (writeTreeRefShadowingWrite(writesCache, changePath) != null) { // we have a shadowing write, ignore changes return viewCache; } else { let newEventCache, serverNode; if (pathIsEmpty(changePath)) { // TODO: figure out how this plays with "sliding ack windows" assert(viewCache.serverCache.isFullyInitialized(), 'If change path is empty, we must have complete server data'); if (viewCache.serverCache.isFiltered()) { // We need to special case this, because we need to only apply writes to complete children, or // we might end up raising events for incomplete children. If the server data is filtered deep // writes cannot be guaranteed to be complete const serverCache = viewCacheGetCompleteServerSnap(viewCache); const completeChildren = serverCache instanceof ChildrenNode ? serverCache : ChildrenNode.EMPTY_NODE; const completeEventChildren = writeTreeRefCalcCompleteEventChildren(writesCache, completeChildren); newEventCache = viewProcessor.filter.updateFullNode(viewCache.eventCache.getNode(), completeEventChildren, accumulator); } else { const completeNode = writeTreeRefCalcCompleteEventCache(writesCache, viewCacheGetCompleteServerSnap(viewCache)); newEventCache = viewProcessor.filter.updateFullNode(viewCache.eventCache.getNode(), completeNode, accumulator); } } else { const childKey = pathGetFront(changePath); if (childKey === '.priority') { assert(pathGetLength(changePath) === 1, "Can't have a priority with additional path components"); const oldEventNode = oldEventSnap.getNode(); serverNode = viewCache.serverCache.getNode(); // we might have overwrites for this priority const updatedPriority = writeTreeRefCalcEventCacheAfterServerOverwrite(writesCache, changePath, oldEventNode, serverNode); if (updatedPriority != null) { newEventCache = viewProcessor.filter.updatePriority(oldEventNode, updatedPriority); } else { // priority didn't change, keep old node newEventCache = oldEventSnap.getNode(); } } else { const childChangePath = pathPopFront(changePath); // update child let newEventChild; if (oldEventSnap.isCompleteForChild(childKey)) { serverNode = viewCache.serverCache.getNode(); const eventChildUpdate = writeTreeRefCalcEventCacheAfterServerOverwrite(writesCache, changePath, oldEventSnap.getNode(), serverNode); if (eventChildUpdate != null) { newEventChild = oldEventSnap .getNode() .getImmediateChild(childKey) .updateChild(childChangePath, eventChildUpdate); } else { // Nothing changed, just keep the old child newEventChild = oldEventSnap.getNode().getImmediateChild(childKey); } } else { newEventChild = writeTreeRefCalcCompleteChild(writesCache, childKey, viewCache.serverCache); } if (newEventChild != null) { newEventCache = viewProcessor.filter.updateChild(oldEventSnap.getNode(), childKey, newEventChild, childChangePath, source, accumulator); } else { // no complete child available or no change newEventCache = oldEventSnap.getNode(); } } } return viewCacheUpdateEventSnap(viewCache, newEventCache, oldEventSnap.isFullyInitialized() || pathIsEmpty(changePath), viewProcessor.filter.filtersNodes()); } } function viewProcessorApplyServerOverwrite(viewProcessor, oldViewCache, changePath, changedSnap, writesCache, completeCache, filterServerNode, accumulator) { const oldServerSnap = oldViewCache.serverCache; let newServerCache; const serverFilter = filterServerNode ? viewProcessor.filter : viewProcessor.filter.getIndexedFilter(); if (pathIsEmpty(changePath)) { newServerCache = serverFilter.updateFullNode(oldServerSnap.getNode(), changedSnap, null); } else if (serverFilter.filtersNodes() && !oldServerSnap.isFiltered()) { // we want to filter the server node, but we didn't filter the server node yet, so simulate a full update const newServerNode = oldServerSnap .getNode() .updateChild(changePath, changedSnap); newServerCache = serverFilter.updateFullNode(oldServerSnap.getNode(), newServerNode, null); } else { const childKey = pathGetFront(changePath); if (!oldServerSnap.isCompleteForPath(changePath) && pathGetLength(changePath) > 1) { // We don't update incomplete nodes with updates intended for other listeners return oldViewCache; } const childChangePath = pathPopFront(changePath); const childNode = oldServerSnap.getNode().getImmediateChild(childKey); const newChildNode = childNode.updateChild(childChangePath, changedSnap); if (childKey === '.priority') { newServerCache = serverFilter.updatePriority(oldServerSnap.getNode(), newChildNode); } else { newServerCache = serverFilter.updateChild(oldServerSnap.getNode(), childKey, newChildNode, childChangePath, NO_COMPLETE_CHILD_SOURCE, null); } } const newViewCache = viewCacheUpdateServerSnap(oldViewCache, newServerCache, oldServerSnap.isFullyInitialized() || pathIsEmpty(changePath), serverFilter.filtersNodes()); const source = new WriteTreeCompleteChildSource(writesCache, newViewCache, completeCache); return viewProcessorGenerateEventCacheAfterServerEvent(viewProcessor, newViewCache, changePath, writesCache, source, accumulator); } function viewProcessorApplyUserOverwrite(viewProcessor, oldViewCache, changePath, changedSnap, writesCache, completeCache, accumulator) { const oldEventSnap = oldViewCache.eventCache; let newViewCache, newEventCache; const source = new WriteTreeCompleteChildSource(writesCache, oldViewCache, completeCache); if (pathIsEmpty(changePath)) { newEventCache = viewProcessor.filter.updateFullNode(oldViewCache.eventCache.getNode(), changedSnap, accumulator); newViewCache = viewCacheUpdateEventSnap(oldViewCache, newEventCache, true, viewProcessor.filter.filtersNodes()); } else { const childKey = pathGetFront(changePath); if (childKey === '.priority') { newEventCache = viewProcessor.filter.updatePriority(oldViewCache.eventCache.getNode(), changedSnap); newViewCache = viewCacheUpdateEventSnap(oldViewCache, newEventCache, oldEventSnap.isFullyInitialized(), oldEventSnap.isFiltered()); } else { const childChangePath = pathPopFront(changePath); const oldChild = oldEventSnap.getNode().getImmediateChild(childKey); let newChild; if (pathIsEmpty(childChangePath)) { // Child overwrite, we can replace the child newChild = changedSnap; } else { const childNode = source.getCompleteChild(childKey); if (childNode != null) { if (pathGetBack(childChangePath) === '.priority' && childNode.getChild(pathParent(childChangePath)).isEmpty()) { // This is a priority update on an empty node. If this node exists on the server, the // server will send down the priority in the update, so ignore for now newChild = childNode; } else { newChild = childNode.updateChild(childChangePath, changedSnap); } } else { // There is no complete child node available newChild = ChildrenNode.EMPTY_NODE; } } if (!oldChild.equals(newChild)) { const newEventSnap = viewProcessor.filter.updateChild(oldEventSnap.getNode(), childKey, newChild, childChangePath, source, accumulator); newViewCache = viewCacheUpdateEventSnap(oldViewCache, newEventSnap, oldEventSnap.isFullyInitialized(), viewProcessor.filter.filtersNodes()); } else { newViewCache = oldViewCache; } } } return newViewCache; } function viewProcessorCacheHasChild(viewCache, childKey) { return viewCache.eventCache.isCompleteForChild(childKey); } function viewProcessorApplyUserMerge(viewProcessor, viewCache, path, changedChildren, writesCache, serverCache, accumulator) { // HACK: In the case of a limit query, there may be some changes that bump things out of the // window leaving room for new items. It's important we process these changes first, so we // iterate the changes twice, first processing any that affect items currently in view. // TODO: I consider an item "in view" if cacheHasChild is true, which checks both the server // and event snap. I'm not sure if this will result in edge cases when a child is in one but // not the other. let curViewCache = viewCache; changedChildren.foreach((relativePath, childNode) => { const writePath = pathChild(path, relativePath); if (viewProcessorCacheHasChild(viewCache, pathGetFront(writePath))) { curViewCache = viewProcessorApplyUserOverwrite(viewProcessor, curViewCache, writePath, childNode, writesCache, serverCache, accumulator); } }); changedChildren.foreach((relativePath, childNode) => { const writePath = pathChild(path, relativePath); if (!viewProcessorCacheHasChild(viewCache, pathGetFront(writePath))) { curViewCache = viewProcessorApplyUserOverwrite(viewProcessor, curViewCache, writePath, childNode, writesCache, serverCache, accumulator); } }); return curViewCache; } function viewProcessorApplyMerge(viewProcessor, node, merge) { merge.foreach((relativePath, childNode) => { node = node.updateChild(relativePath, childNode); }); return node; } function viewProcessorApplyServerMerge(viewProcessor, viewCache, path, changedChildren, writesCache, serverCache, filterServerNode, accumulator) { // If we don't have a cache yet, this merge was intended for a previously listen in the same location. Ignore it and // wait for the complete data update coming soon. if (viewCache.serverCache.getNode().isEmpty() && !viewCache.serverCache.isFullyInitialized()) { return viewCache; } // HACK: In the case of a limit query, there may be some changes that bump things out of the // window leaving room for new items. It's important we process these changes first, so we // iterate the changes twice, first processing any that affect items currently in view. // TODO: I consider an item "in view" if cacheHasChild is true, which checks both the server // and event snap. I'm not sure if this will result in edge cases when a child is in one but // not the other. let curViewCache = viewCache; let viewMergeTree; if (pathIsEmpty(path)) { viewMergeTree = changedChildren; } else { viewMergeTree = new ImmutableTree(null).setTree(path, changedChildren); } const serverNode = viewCache.serverCache.getNode(); viewMergeTree.children.inorderTraversal((childKey, childTree) => { if (serverNode.hasChild(childKey)) { const serverChild = viewCache.serverCache .getNode() .getImmediateChild(childKey); const newChild = viewProcessorApplyMerge(viewProcessor, serverChild, childTree); curViewCache = viewProcessorApplyServerOverwrite(viewProcessor, curViewCache, new Path(childKey), newChild, writesCache, serverCache, filterServerNode, accumulator); } }); viewMergeTree.children.inorderTraversal((childKey, childMergeTree) => { const isUnknownDeepMerge = !viewCache.serverCache.isCompleteForChild(childKey) && childMergeTree.value === null; if (!serverNode.hasChild(childKey) && !isUnknownDeepMerge) { const serverChild = viewCache.serverCache .getNode() .getImmediateChild(childKey); const newChild = viewProcessorApplyMerge(viewProcessor, serverChild, childMergeTree); curViewCache = viewProcessorApplyServerOverwrite(viewProcessor, curViewCache, new Path(childKey), newChild, writesCache, serverCache, filterServerNode, accumulator); } }); return curViewCache; } function viewProcessorAckUserWrite(viewProcessor, viewCache, ackPath, affectedTree, writesCache, completeCache, accumulator) { if (writeTreeRefShadowingWrite(writesCache, ackPath) != null) { return viewCache; } // Only filter server node if it is currently filtered const filterServerNode = viewCache.serverCache.isFiltered(); // Essentially we'll just get our existing server cache for the affected paths and re-apply it as a server update // now that it won't be shadowed. const serverCache = viewCache.serverCache; if (affectedTree.value != null) { // This is an overwrite. if ((pathIsEmpty(ackPath) && serverCache.isFullyInitialized()) || serverCache.isCompleteForPath(ackPath)) { return viewProcessorApplyServerOverwrite(viewProcessor, viewCache, ackPath, serverCache.getNode().getChild(ackPath), writesCache, completeCache, filterServerNode, accumulator); } else if (pathIsEmpty(ackPath)) { // This is a goofy edge case where we are acking data at this location but don't have full data. We // should just re-apply whatever we have in our cache as a merge. let changedChildren = new ImmutableTree(null); serverCache.getNode().forEachChild(KEY_INDEX, (name, node) => { changedChildren = changedChildren.set(new Path(name), node); }); return viewProcessorApplyServerMerge(viewProcessor, viewCache, ackPath, changedChildren, writesCache, completeCache, filterServerNode, accumulator); } else { return viewCache; } } else { // This is a merge. let changedChildren = new ImmutableTree(null); affectedTree.foreach((mergePath, value) => { const serverCachePath = pathChild(ackPath, mergePath); if (serverCache.isCompleteForPath(serverCachePath)) { changedChildren = changedChildren.set(mergePath, serverCache.getNode().getChild(serverCachePath)); } }); return viewProcessorApplyServerMerge(viewProcessor, viewCache, ackPath, changedChildren, writesCache, completeCache, filterServerNode, accumulator); } } function viewProcessorListenComplete(viewProcessor, viewCache, path, writesCache, accumulator) { const oldServerNode = viewCache.serverCache; const newViewCache = viewCacheUpdateServerSnap(viewCache, oldServerNode.getNode(), oldServerNode.isFullyInitialized() || pathIsEmpty(path), oldServerNode.isFiltered()); return viewProcessorGenerateEventCacheAfterServerEvent(viewProcessor, newViewCache, path, writesCache, NO_COMPLETE_CHILD_SOURCE, accumulator); } function viewProcessorRevertUserWrite(viewProcessor, viewCache, path, writesCache, completeServerCache, accumulator) { let complete; if (writeTreeRefShadowingWrite(writesCache, path) != null) { return viewCache; } else { const source = new WriteTreeCompleteChildSource(writesCache, viewCache, completeServerCache); const oldEventCache = viewCache.eventCache.getNode(); let newEventCache; if (pathIsEmpty(path) || pathGetFront(path) === '.priority') { let newNode; if (viewCache.serverCache.isFullyInitialized()) { newNode = writeTreeRefCalcCompleteEventCache(writesCache, viewCacheGetCompleteServerSnap(viewCache)); } else { const serverChildren = viewCache.serverCache.getNode(); assert(serverChildren instanceof ChildrenNode, 'serverChildren would be complete if leaf node'); newNode = writeTreeRefCalcCompleteEventChildren(writesCache, serverChildren); } newNode = newNode; newEventCache = viewProcessor.filter.updateFullNode(oldEventCache, newNode, accumulator); } else { const childKey = pathGetFront(path); let newChild = writeTreeRefCalcCompleteChild(writesCache, childKey, viewCache.serverCache); if (newChild == null && viewCache.serverCache.isCompleteForChild(childKey)) { newChild = oldEventCache.getImmediateChild(childKey); } if (newChild != null) { newEventCache = viewProcessor.filter.updateChild(oldEventCache, childKey, newChild, pathPopFront(path), source, accumulator); } else if (viewCache.eventCache.getNode().hasChild(childKey)) { // No complete child available, delete the existing one, if any newEventCache = viewProcessor.filter.updateChild(oldEventCache, childKey, ChildrenNode.EMPTY_NODE, pathPopFront(path), source, accumulator); } else { newEventCache = oldEventCache; } if (newEventCache.isEmpty() && viewCache.serverCache.isFullyInitialized()) { // We might have reverted all child writes. Maybe the old event was a leaf node complete = writeTreeRefCalcCompleteEventCache(writesCache, viewCacheGetCompleteServerSnap(viewCache)); if (complete.isLeafNode()) { newEventCache = viewProcessor.filter.updateFullNode(newEventCache, complete, accumulator); } } } complete = viewCache.serverCache.isFullyInitialized() || writeTreeRefShadowingWrite(writesCache, newEmptyPath()) != null; return viewCacheUpdateEventSnap(viewCache, newEventCache, complete, viewProcessor.filter.filtersNodes()); } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * A view represents a specific location and query that has 1 or more event registrations. * * It does several things: * - Maintains the list of event registrations for this location/query. * - Maintains a cache of the data visible for this location/query. * - Applies new operations (via applyOperation), updates the cache, and based on the event * registrations returns the set of events to be raised. */ class View { constructor(query_, initialViewCache) { this.query_ = query_; this.eventRegistrations_ = []; const params = this.query_._queryParams; const indexFilter = new IndexedFilter(params.getIndex()); const filter = queryParamsGetNodeFilter(params); this.processor_ = newViewProcessor(filter); const initialServerCache = initialViewCache.serverCache; const initialEventCache = initialViewCache.eventCache; // Don't filter server node with other filter than index, wait for tagged listen const serverSnap = indexFilter.updateFullNode(ChildrenNode.EMPTY_NODE, initialServerCache.getNode(), null); const eventSnap = filter.updateFullNode(ChildrenNode.EMPTY_NODE, initialEventCache.getNode(), null); const newServerCache = new CacheNode(serverSnap, initialServerCache.isFullyInitialized(), indexFilter.filtersNodes()); const newEventCache = new CacheNode(eventSnap, initialEventCache.isFullyInitialized(), filter.filtersNodes()); this.viewCache_ = newViewCache(newEventCache, newServerCache); this.eventGenerator_ = new EventGenerator(this.query_); } get query() { return this.query_; } } function viewGetServerCache(view) { return view.viewCache_.serverCache.getNode(); } function viewGetCompleteNode(view) { return viewCacheGetCompleteEventSnap(view.viewCache_); } function viewGetCompleteServerCache(view, path) { const cache = viewCacheGetCompleteServerSnap(view.viewCache_); if (cache) { // If this isn't a "loadsAllData" view, then cache isn't actually a complete cache and // we need to see if it contains the child we're interested in. if (view.query._queryParams.loadsAllData() || (!pathIsEmpty(path) && !cache.getImmediateChild(pathGetFront(path)).isEmpty())) { return cache.getChild(path); } } return null; } function viewIsEmpty(view) { return view.eventRegistrations_.length === 0; } function viewAddEventRegistration(view, eventRegistration) { view.eventRegistrations_.push(eventRegistration); } /** * @param eventRegistration - If null, remove all callbacks. * @param cancelError - If a cancelError is provided, appropriate cancel events will be returned. * @returns Cancel events, if cancelError was provided. */ function viewRemoveEventRegistration(view, eventRegistration, cancelError) { const cancelEvents = []; if (cancelError) { assert(eventRegistration == null, 'A cancel should cancel all event registrations.'); const path = view.query._path; view.eventRegistrations_.forEach(registration => { const maybeEvent = registration.createCancelEvent(cancelError, path); if (maybeEvent) { cancelEvents.push(maybeEvent); } }); } if (eventRegistration) { let remaining = []; for (let i = 0; i < view.eventRegistrations_.length; ++i) { const existing = view.eventRegistrations_[i]; if (!existing.matches(eventRegistration)) { remaining.push(existing); } else if (eventRegistration.hasAnyCallback()) { // We're removing just this one remaining = remaining.concat(view.eventRegistrations_.slice(i + 1)); break; } } view.eventRegistrations_ = remaining; } else { view.eventRegistrations_ = []; } return cancelEvents; } /** * Applies the given Operation, updates our cache, and returns the appropriate events. */ function viewApplyOperation(view, operation, writesCache, completeServerCache) { if (operation.type === OperationType.MERGE && operation.source.queryId !== null) { assert(viewCacheGetCompleteServerSnap(view.viewCache_), 'We should always have a full cache before handling merges'); assert(viewCacheGetCompleteEventSnap(view.viewCache_), 'Missing event cache, even though we have a server cache'); } const oldViewCache = view.viewCache_; const result = viewProcessorApplyOperation(view.processor_, oldViewCache, operation, writesCache, completeServerCache); viewProcessorAssertIndexed(view.processor_, result.viewCache); assert(result.viewCache.serverCache.isFullyInitialized() || !oldViewCache.serverCache.isFullyInitialized(), 'Once a server snap is complete, it should never go back'); view.viewCache_ = result.viewCache; return viewGenerateEventsForChanges_(view, result.changes, result.viewCache.eventCache.getNode(), null); } function viewGetInitialEvents(view, registration) { const eventSnap = view.viewCache_.eventCache; const initialChanges = []; if (!eventSnap.getNode().isLeafNode()) { const eventNode = eventSnap.getNode(); eventNode.forEachChild(PRIORITY_INDEX, (key, childNode) => { initialChanges.push(changeChildAdded(key, childNode)); }); } if (eventSnap.isFullyInitialized()) { initialChanges.push(changeValue(eventSnap.getNode())); } return viewGenerateEventsForChanges_(view, initialChanges, eventSnap.getNode(), registration); } function viewGenerateEventsForChanges_(view, changes, eventCache, eventRegistration) { const registrations = eventRegistration ? [eventRegistration] : view.eventRegistrations_; return eventGeneratorGenerateEventsForChanges(view.eventGenerator_, changes, eventCache, registrations); } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ let referenceConstructor$1; /** * SyncPoint represents a single location in a SyncTree with 1 or more event registrations, meaning we need to * maintain 1 or more Views at this location to cache server data and raise appropriate events for server changes * and user writes (set, transaction, update). * * It's responsible for: * - Maintaining the set of 1 or more views necessary at this location (a SyncPoint with 0 views should be removed). * - Proxying user / server operations to the views as appropriate (i.e. applyServerOverwrite, * applyUserOverwrite, etc.) */ class SyncPoint { constructor() { /** * The Views being tracked at this location in the tree, stored as a map where the key is a * queryId and the value is the View for that query. * * NOTE: This list will be quite small (usually 1, but perhaps 2 or 3; any more is an odd use case). */ this.views = new Map(); } } function syncPointSetReferenceConstructor(val) { assert(!referenceConstructor$1, '__referenceConstructor has already been defined'); referenceConstructor$1 = val; } function syncPointGetReferenceConstructor() { assert(referenceConstructor$1, 'Reference.ts has not been loaded'); return referenceConstructor$1; } function syncPointIsEmpty(syncPoint) { return syncPoint.views.size === 0; } function syncPointApplyOperation(syncPoint, operation, writesCache, optCompleteServerCache) { const queryId = operation.source.queryId; if (queryId !== null) { const view = syncPoint.views.get(queryId); assert(view != null, 'SyncTree gave us an op for an invalid query.'); return viewApplyOperation(view, operation, writesCache, optCompleteServerCache); } else { let events = []; for (const view of syncPoint.views.values()) { events = events.concat(viewApplyOperation(view, operation, writesCache, optCompleteServerCache)); } return events; } } /** * Get a view for the specified query. * * @param query - The query to return a view for * @param writesCache * @param serverCache * @param serverCacheComplete * @returns Events to raise. */ function syncPointGetView(syncPoint, query, writesCache, serverCache, serverCacheComplete) { const queryId = query._queryIdentifier; const view = syncPoint.views.get(queryId); if (!view) { // TODO: make writesCache take flag for complete server node let eventCache = writeTreeRefCalcCompleteEventCache(writesCache, serverCacheComplete ? serverCache : null); let eventCacheComplete = false; if (eventCache) { eventCacheComplete = true; } else if (serverCache instanceof ChildrenNode) { eventCache = writeTreeRefCalcCompleteEventChildren(writesCache, serverCache); eventCacheComplete = false; } else { eventCache = ChildrenNode.EMPTY_NODE; eventCacheComplete = false; } const viewCache = newViewCache(new CacheNode(eventCache, eventCacheComplete, false), new CacheNode(serverCache, serverCacheComplete, false)); return new View(query, viewCache); } return view; } /** * Add an event callback for the specified query. * * @param query * @param eventRegistration * @param writesCache * @param serverCache - Complete server cache, if we have it. * @param serverCacheComplete * @returns Events to raise. */ function syncPointAddEventRegistration(syncPoint, query, eventRegistration, writesCache, serverCache, serverCacheComplete) { const view = syncPointGetView(syncPoint, query, writesCache, serverCache, serverCacheComplete); if (!syncPoint.views.has(query._queryIdentifier)) { syncPoint.views.set(query._queryIdentifier, view); } // This is guaranteed to exist now, we just created anything that was missing viewAddEventRegistration(view, eventRegistration); return viewGetInitialEvents(view, eventRegistration); } /** * Remove event callback(s). Return cancelEvents if a cancelError is specified. * * If query is the default query, we'll check all views for the specified eventRegistration. * If eventRegistration is null, we'll remove all callbacks for the specified view(s). * * @param eventRegistration - If null, remove all callbacks. * @param cancelError - If a cancelError is provided, appropriate cancel events will be returned. * @returns removed queries and any cancel events */ function syncPointRemoveEventRegistration(syncPoint, query, eventRegistration, cancelError) { const queryId = query._queryIdentifier; const removed = []; let cancelEvents = []; const hadCompleteView = syncPointHasCompleteView(syncPoint); if (queryId === 'default') { // When you do ref.off(...), we search all views for the registration to remove. for (const [viewQueryId, view] of syncPoint.views.entries()) { cancelEvents = cancelEvents.concat(viewRemoveEventRegistration(view, eventRegistration, cancelError)); if (viewIsEmpty(view)) { syncPoint.views.delete(viewQueryId); // We'll deal with complete views later. if (!view.query._queryParams.loadsAllData()) { removed.push(view.query); } } } } else { // remove the callback from the specific view. const view = syncPoint.views.get(queryId); if (view) { cancelEvents = cancelEvents.concat(viewRemoveEventRegistration(view, eventRegistration, cancelError)); if (viewIsEmpty(view)) { syncPoint.views.delete(queryId); // We'll deal with complete views later. if (!view.query._queryParams.loadsAllData()) { removed.push(view.query); } } } } if (hadCompleteView && !syncPointHasCompleteView(syncPoint)) { // We removed our last complete view. removed.push(new (syncPointGetReferenceConstructor())(query._repo, query._path)); } return { removed, events: cancelEvents }; } function syncPointGetQueryViews(syncPoint) { const result = []; for (const view of syncPoint.views.values()) { if (!view.query._queryParams.loadsAllData()) { result.push(view); } } return result; } /** * @param path - The path to the desired complete snapshot * @returns A complete cache, if it exists */ function syncPointGetCompleteServerCache(syncPoint, path) { let serverCache = null; for (const view of syncPoint.views.values()) { serverCache = serverCache || viewGetCompleteServerCache(view, path); } return serverCache; } function syncPointViewForQuery(syncPoint, query) { const params = query._queryParams; if (params.loadsAllData()) { return syncPointGetCompleteView(syncPoint); } else { const queryId = query._queryIdentifier; return syncPoint.views.get(queryId); } } function syncPointViewExistsForQuery(syncPoint, query) { return syncPointViewForQuery(syncPoint, query) != null; } function syncPointHasCompleteView(syncPoint) { return syncPointGetCompleteView(syncPoint) != null; } function syncPointGetCompleteView(syncPoint) { for (const view of syncPoint.views.values()) { if (view.query._queryParams.loadsAllData()) { return view; } } return null; } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ let referenceConstructor; function syncTreeSetReferenceConstructor(val) { assert(!referenceConstructor, '__referenceConstructor has already been defined'); referenceConstructor = val; } function syncTreeGetReferenceConstructor() { assert(referenceConstructor, 'Reference.ts has not been loaded'); return referenceConstructor; } /** * Static tracker for next query tag. */ let syncTreeNextQueryTag_ = 1; /** * SyncTree is the central class for managing event callback registration, data caching, views * (query processing), and event generation. There are typically two SyncTree instances for * each Repo, one for the normal Firebase data, and one for the .info data. * * It has a number of responsibilities, including: * - Tracking all user event callbacks (registered via addEventRegistration() and removeEventRegistration()). * - Applying and caching data changes for user set(), transaction(), and update() calls * (applyUserOverwrite(), applyUserMerge()). * - Applying and caching data changes for server data changes (applyServerOverwrite(), * applyServerMerge()). * - Generating user-facing events for server and user changes (all of the apply* methods * return the set of events that need to be raised as a result). * - Maintaining the appropriate set of server listens to ensure we are always subscribed * to the correct set of paths and queries to satisfy the current set of user event * callbacks (listens are started/stopped using the provided listenProvider). * * NOTE: Although SyncTree tracks event callbacks and calculates events to raise, the actual * events are returned to the caller rather than raised synchronously. * */ class SyncTree { /** * @param listenProvider_ - Used by SyncTree to start / stop listening * to server data. */ constructor(listenProvider_) { this.listenProvider_ = listenProvider_; /** * Tree of SyncPoints. There's a SyncPoint at any location that has 1 or more views. */ this.syncPointTree_ = new ImmutableTree(null); /** * A tree of all pending user writes (user-initiated set()'s, transaction()'s, update()'s, etc.). */ this.pendingWriteTree_ = newWriteTree(); this.tagToQueryMap = new Map(); this.queryToTagMap = new Map(); } } /** * Apply the data changes for a user-generated set() or transaction() call. * * @returns Events to raise. */ function syncTreeApplyUserOverwrite(syncTree, path, newData, writeId, visible) { // Record pending write. writeTreeAddOverwrite(syncTree.pendingWriteTree_, path, newData, writeId, visible); if (!visible) { return []; } else { return syncTreeApplyOperationToSyncPoints_(syncTree, new Overwrite(newOperationSourceUser(), path, newData)); } } /** * Apply the data from a user-generated update() call * * @returns Events to raise. */ function syncTreeApplyUserMerge(syncTree, path, changedChildren, writeId) { // Record pending merge. writeTreeAddMerge(syncTree.pendingWriteTree_, path, changedChildren, writeId); const changeTree = ImmutableTree.fromObject(changedChildren); return syncTreeApplyOperationToSyncPoints_(syncTree, new Merge(newOperationSourceUser(), path, changeTree)); } /** * Acknowledge a pending user write that was previously registered with applyUserOverwrite() or applyUserMerge(). * * @param revert - True if the given write failed and needs to be reverted * @returns Events to raise. */ function syncTreeAckUserWrite(syncTree, writeId, revert = false) { const write = writeTreeGetWrite(syncTree.pendingWriteTree_, writeId); const needToReevaluate = writeTreeRemoveWrite(syncTree.pendingWriteTree_, writeId); if (!needToReevaluate) { return []; } else { let affectedTree = new ImmutableTree(null); if (write.snap != null) { // overwrite affectedTree = affectedTree.set(newEmptyPath(), true); } else { each(write.children, (pathString) => { affectedTree = affectedTree.set(new Path(pathString), true); }); } return syncTreeApplyOperationToSyncPoints_(syncTree, new AckUserWrite(write.path, affectedTree, revert)); } } /** * Apply new server data for the specified path.. * * @returns Events to raise. */ function syncTreeApplyServerOverwrite(syncTree, path, newData) { return syncTreeApplyOperationToSyncPoints_(syncTree, new Overwrite(newOperationSourceServer(), path, newData)); } /** * Apply new server data to be merged in at the specified path. * * @returns Events to raise. */ function syncTreeApplyServerMerge(syncTree, path, changedChildren) { const changeTree = ImmutableTree.fromObject(changedChildren); return syncTreeApplyOperationToSyncPoints_(syncTree, new Merge(newOperationSourceServer(), path, changeTree)); } /** * Apply a listen complete for a query * * @returns Events to raise. */ function syncTreeApplyListenComplete(syncTree, path) { return syncTreeApplyOperationToSyncPoints_(syncTree, new ListenComplete(newOperationSourceServer(), path)); } /** * Apply a listen complete for a tagged query * * @returns Events to raise. */ function syncTreeApplyTaggedListenComplete(syncTree, path, tag) { const queryKey = syncTreeQueryKeyForTag_(syncTree, tag); if (queryKey) { const r = syncTreeParseQueryKey_(queryKey); const queryPath = r.path, queryId = r.queryId; const relativePath = newRelativePath(queryPath, path); const op = new ListenComplete(newOperationSourceServerTaggedQuery(queryId), relativePath); return syncTreeApplyTaggedOperation_(syncTree, queryPath, op); } else { // We've already removed the query. No big deal, ignore the update return []; } } /** * Remove event callback(s). * * If query is the default query, we'll check all queries for the specified eventRegistration. * If eventRegistration is null, we'll remove all callbacks for the specified query/queries. * * @param eventRegistration - If null, all callbacks are removed. * @param cancelError - If a cancelError is provided, appropriate cancel events will be returned. * @param skipListenerDedup - When performing a `get()`, we don't add any new listeners, so no * deduping needs to take place. This flag allows toggling of that behavior * @returns Cancel events, if cancelError was provided. */ function syncTreeRemoveEventRegistration(syncTree, query, eventRegistration, cancelError, skipListenerDedup = false) { // Find the syncPoint first. Then deal with whether or not it has matching listeners const path = query._path; const maybeSyncPoint = syncTree.syncPointTree_.get(path); let cancelEvents = []; // A removal on a default query affects all queries at that location. A removal on an indexed query, even one without // other query constraints, does *not* affect all queries at that location. So this check must be for 'default', and // not loadsAllData(). if (maybeSyncPoint && (query._queryIdentifier === 'default' || syncPointViewExistsForQuery(maybeSyncPoint, query))) { const removedAndEvents = syncPointRemoveEventRegistration(maybeSyncPoint, query, eventRegistration, cancelError); if (syncPointIsEmpty(maybeSyncPoint)) { syncTree.syncPointTree_ = syncTree.syncPointTree_.remove(path); } const removed = removedAndEvents.removed; cancelEvents = removedAndEvents.events; if (!skipListenerDedup) { /** * We may have just removed one of many listeners and can short-circuit this whole process * We may also not have removed a default listener, in which case all of the descendant listeners should already be * properly set up. */ // Since indexed queries can shadow if they don't have other query constraints, check for loadsAllData(), instead of // queryId === 'default' const removingDefault = -1 !== removed.findIndex(query => { return query._queryParams.loadsAllData(); }); const covered = syncTree.syncPointTree_.findOnPath(path, (relativePath, parentSyncPoint) => syncPointHasCompleteView(parentSyncPoint)); if (removingDefault && !covered) { const subtree = syncTree.syncPointTree_.subtree(path); // There are potentially child listeners. Determine what if any listens we need to send before executing the // removal if (!subtree.isEmpty()) { // We need to fold over our subtree and collect the listeners to send const newViews = syncTreeCollectDistinctViewsForSubTree_(subtree); // Ok, we've collected all the listens we need. Set them up. for (let i = 0; i < newViews.length; ++i) { const view = newViews[i], newQuery = view.query; const listener = syncTreeCreateListenerForView_(syncTree, view); syncTree.listenProvider_.startListening(syncTreeQueryForListening_(newQuery), syncTreeTagForQuery(syncTree, newQuery), listener.hashFn, listener.onComplete); } } // Otherwise there's nothing below us, so nothing we need to start listening on } // If we removed anything and we're not covered by a higher up listen, we need to stop listening on this query // The above block has us covered in terms of making sure we're set up on listens lower in the tree. // Also, note that if we have a cancelError, it's already been removed at the provider level. if (!covered && removed.length > 0 && !cancelError) { // If we removed a default, then we weren't listening on any of the other queries here. Just cancel the one // default. Otherwise, we need to iterate through and cancel each individual query if (removingDefault) { // We don't tag default listeners const defaultTag = null; syncTree.listenProvider_.stopListening(syncTreeQueryForListening_(query), defaultTag); } else { removed.forEach((queryToRemove) => { const tagToRemove = syncTree.queryToTagMap.get(syncTreeMakeQueryKey_(queryToRemove)); syncTree.listenProvider_.stopListening(syncTreeQueryForListening_(queryToRemove), tagToRemove); }); } } } // Now, clear all of the tags we're tracking for the removed listens syncTreeRemoveTags_(syncTree, removed); } return cancelEvents; } /** * Apply new server data for the specified tagged query. * * @returns Events to raise. */ function syncTreeApplyTaggedQueryOverwrite(syncTree, path, snap, tag) { const queryKey = syncTreeQueryKeyForTag_(syncTree, tag); if (queryKey != null) { const r = syncTreeParseQueryKey_(queryKey); const queryPath = r.path, queryId = r.queryId; const relativePath = newRelativePath(queryPath, path); const op = new Overwrite(newOperationSourceServerTaggedQuery(queryId), relativePath, snap); return syncTreeApplyTaggedOperation_(syncTree, queryPath, op); } else { // Query must have been removed already return []; } } /** * Apply server data to be merged in for the specified tagged query. * * @returns Events to raise. */ function syncTreeApplyTaggedQueryMerge(syncTree, path, changedChildren, tag) { const queryKey = syncTreeQueryKeyForTag_(syncTree, tag); if (queryKey) { const r = syncTreeParseQueryKey_(queryKey); const queryPath = r.path, queryId = r.queryId; const relativePath = newRelativePath(queryPath, path); const changeTree = ImmutableTree.fromObject(changedChildren); const op = new Merge(newOperationSourceServerTaggedQuery(queryId), relativePath, changeTree); return syncTreeApplyTaggedOperation_(syncTree, queryPath, op); } else { // We've already removed the query. No big deal, ignore the update return []; } } /** * Add an event callback for the specified query. * * @returns Events to raise. */ function syncTreeAddEventRegistration(syncTree, query, eventRegistration, skipSetupListener = false) { const path = query._path; let serverCache = null; let foundAncestorDefaultView = false; // Any covering writes will necessarily be at the root, so really all we need to find is the server cache. // Consider optimizing this once there's a better understanding of what actual behavior will be. syncTree.syncPointTree_.foreachOnPath(path, (pathToSyncPoint, sp) => { const relativePath = newRelativePath(pathToSyncPoint, path); serverCache = serverCache || syncPointGetCompleteServerCache(sp, relativePath); foundAncestorDefaultView = foundAncestorDefaultView || syncPointHasCompleteView(sp); }); let syncPoint = syncTree.syncPointTree_.get(path); if (!syncPoint) { syncPoint = new SyncPoint(); syncTree.syncPointTree_ = syncTree.syncPointTree_.set(path, syncPoint); } else { foundAncestorDefaultView = foundAncestorDefaultView || syncPointHasCompleteView(syncPoint); serverCache = serverCache || syncPointGetCompleteServerCache(syncPoint, newEmptyPath()); } let serverCacheComplete; if (serverCache != null) { serverCacheComplete = true; } else { serverCacheComplete = false; serverCache = ChildrenNode.EMPTY_NODE; const subtree = syncTree.syncPointTree_.subtree(path); subtree.foreachChild((childName, childSyncPoint) => { const completeCache = syncPointGetCompleteServerCache(childSyncPoint, newEmptyPath()); if (completeCache) { serverCache = serverCache.updateImmediateChild(childName, completeCache); } }); } const viewAlreadyExists = syncPointViewExistsForQuery(syncPoint, query); if (!viewAlreadyExists && !query._queryParams.loadsAllData()) { // We need to track a tag for this query const queryKey = syncTreeMakeQueryKey_(query); assert(!syncTree.queryToTagMap.has(queryKey), 'View does not exist, but we have a tag'); const tag = syncTreeGetNextQueryTag_(); syncTree.queryToTagMap.set(queryKey, tag); syncTree.tagToQueryMap.set(tag, queryKey); } const writesCache = writeTreeChildWrites(syncTree.pendingWriteTree_, path); let events = syncPointAddEventRegistration(syncPoint, query, eventRegistration, writesCache, serverCache, serverCacheComplete); if (!viewAlreadyExists && !foundAncestorDefaultView && !skipSetupListener) { const view = syncPointViewForQuery(syncPoint, query); events = events.concat(syncTreeSetupListener_(syncTree, query, view)); } return events; } /** * Returns a complete cache, if we have one, of the data at a particular path. If the location does not have a * listener above it, we will get a false "null". This shouldn't be a problem because transactions will always * have a listener above, and atomic operations would correctly show a jitter of -> * as the write is applied locally and then acknowledged at the server. * * Note: this method will *include* hidden writes from transaction with applyLocally set to false. * * @param path - The path to the data we want * @param writeIdsToExclude - A specific set to be excluded */ function syncTreeCalcCompleteEventCache(syncTree, path, writeIdsToExclude) { const includeHiddenSets = true; const writeTree = syncTree.pendingWriteTree_; const serverCache = syncTree.syncPointTree_.findOnPath(path, (pathSoFar, syncPoint) => { const relativePath = newRelativePath(pathSoFar, path); const serverCache = syncPointGetCompleteServerCache(syncPoint, relativePath); if (serverCache) { return serverCache; } }); return writeTreeCalcCompleteEventCache(writeTree, path, serverCache, writeIdsToExclude, includeHiddenSets); } function syncTreeGetServerValue(syncTree, query) { const path = query._path; let serverCache = null; // Any covering writes will necessarily be at the root, so really all we need to find is the server cache. // Consider optimizing this once there's a better understanding of what actual behavior will be. syncTree.syncPointTree_.foreachOnPath(path, (pathToSyncPoint, sp) => { const relativePath = newRelativePath(pathToSyncPoint, path); serverCache = serverCache || syncPointGetCompleteServerCache(sp, relativePath); }); let syncPoint = syncTree.syncPointTree_.get(path); if (!syncPoint) { syncPoint = new SyncPoint(); syncTree.syncPointTree_ = syncTree.syncPointTree_.set(path, syncPoint); } else { serverCache = serverCache || syncPointGetCompleteServerCache(syncPoint, newEmptyPath()); } const serverCacheComplete = serverCache != null; const serverCacheNode = serverCacheComplete ? new CacheNode(serverCache, true, false) : null; const writesCache = writeTreeChildWrites(syncTree.pendingWriteTree_, query._path); const view = syncPointGetView(syncPoint, query, writesCache, serverCacheComplete ? serverCacheNode.getNode() : ChildrenNode.EMPTY_NODE, serverCacheComplete); return viewGetCompleteNode(view); } /** * A helper method that visits all descendant and ancestor SyncPoints, applying the operation. * * NOTES: * - Descendant SyncPoints will be visited first (since we raise events depth-first). * * - We call applyOperation() on each SyncPoint passing three things: * 1. A version of the Operation that has been made relative to the SyncPoint location. * 2. A WriteTreeRef of any writes we have cached at the SyncPoint location. * 3. A snapshot Node with cached server data, if we have it. * * - We concatenate all of the events returned by each SyncPoint and return the result. */ function syncTreeApplyOperationToSyncPoints_(syncTree, operation) { return syncTreeApplyOperationHelper_(operation, syncTree.syncPointTree_, /*serverCache=*/ null, writeTreeChildWrites(syncTree.pendingWriteTree_, newEmptyPath())); } /** * Recursive helper for applyOperationToSyncPoints_ */ function syncTreeApplyOperationHelper_(operation, syncPointTree, serverCache, writesCache) { if (pathIsEmpty(operation.path)) { return syncTreeApplyOperationDescendantsHelper_(operation, syncPointTree, serverCache, writesCache); } else { const syncPoint = syncPointTree.get(newEmptyPath()); // If we don't have cached server data, see if we can get it from this SyncPoint. if (serverCache == null && syncPoint != null) { serverCache = syncPointGetCompleteServerCache(syncPoint, newEmptyPath()); } let events = []; const childName = pathGetFront(operation.path); const childOperation = operation.operationForChild(childName); const childTree = syncPointTree.children.get(childName); if (childTree && childOperation) { const childServerCache = serverCache ? serverCache.getImmediateChild(childName) : null; const childWritesCache = writeTreeRefChild(writesCache, childName); events = events.concat(syncTreeApplyOperationHelper_(childOperation, childTree, childServerCache, childWritesCache)); } if (syncPoint) { events = events.concat(syncPointApplyOperation(syncPoint, operation, writesCache, serverCache)); } return events; } } /** * Recursive helper for applyOperationToSyncPoints_ */ function syncTreeApplyOperationDescendantsHelper_(operation, syncPointTree, serverCache, writesCache) { const syncPoint = syncPointTree.get(newEmptyPath()); // If we don't have cached server data, see if we can get it from this SyncPoint. if (serverCache == null && syncPoint != null) { serverCache = syncPointGetCompleteServerCache(syncPoint, newEmptyPath()); } let events = []; syncPointTree.children.inorderTraversal((childName, childTree) => { const childServerCache = serverCache ? serverCache.getImmediateChild(childName) : null; const childWritesCache = writeTreeRefChild(writesCache, childName); const childOperation = operation.operationForChild(childName); if (childOperation) { events = events.concat(syncTreeApplyOperationDescendantsHelper_(childOperation, childTree, childServerCache, childWritesCache)); } }); if (syncPoint) { events = events.concat(syncPointApplyOperation(syncPoint, operation, writesCache, serverCache)); } return events; } function syncTreeCreateListenerForView_(syncTree, view) { const query = view.query; const tag = syncTreeTagForQuery(syncTree, query); return { hashFn: () => { const cache = viewGetServerCache(view) || ChildrenNode.EMPTY_NODE; return cache.hash(); }, onComplete: (status) => { if (status === 'ok') { if (tag) { return syncTreeApplyTaggedListenComplete(syncTree, query._path, tag); } else { return syncTreeApplyListenComplete(syncTree, query._path); } } else { // If a listen failed, kill all of the listeners here, not just the one that triggered the error. // Note that this may need to be scoped to just this listener if we change permissions on filtered children const error = errorForServerCode(status, query); return syncTreeRemoveEventRegistration(syncTree, query, /*eventRegistration*/ null, error); } } }; } /** * Return the tag associated with the given query. */ function syncTreeTagForQuery(syncTree, query) { const queryKey = syncTreeMakeQueryKey_(query); return syncTree.queryToTagMap.get(queryKey); } /** * Given a query, computes a "queryKey" suitable for use in our queryToTagMap_. */ function syncTreeMakeQueryKey_(query) { return query._path.toString() + '$' + query._queryIdentifier; } /** * Return the query associated with the given tag, if we have one */ function syncTreeQueryKeyForTag_(syncTree, tag) { return syncTree.tagToQueryMap.get(tag); } /** * Given a queryKey (created by makeQueryKey), parse it back into a path and queryId. */ function syncTreeParseQueryKey_(queryKey) { const splitIndex = queryKey.indexOf('$'); assert(splitIndex !== -1 && splitIndex < queryKey.length - 1, 'Bad queryKey.'); return { queryId: queryKey.substr(splitIndex + 1), path: new Path(queryKey.substr(0, splitIndex)) }; } /** * A helper method to apply tagged operations */ function syncTreeApplyTaggedOperation_(syncTree, queryPath, operation) { const syncPoint = syncTree.syncPointTree_.get(queryPath); assert(syncPoint, "Missing sync point for query tag that we're tracking"); const writesCache = writeTreeChildWrites(syncTree.pendingWriteTree_, queryPath); return syncPointApplyOperation(syncPoint, operation, writesCache, null); } /** * This collapses multiple unfiltered views into a single view, since we only need a single * listener for them. */ function syncTreeCollectDistinctViewsForSubTree_(subtree) { return subtree.fold((relativePath, maybeChildSyncPoint, childMap) => { if (maybeChildSyncPoint && syncPointHasCompleteView(maybeChildSyncPoint)) { const completeView = syncPointGetCompleteView(maybeChildSyncPoint); return [completeView]; } else { // No complete view here, flatten any deeper listens into an array let views = []; if (maybeChildSyncPoint) { views = syncPointGetQueryViews(maybeChildSyncPoint); } each(childMap, (_key, childViews) => { views = views.concat(childViews); }); return views; } }); } /** * Normalizes a query to a query we send the server for listening * * @returns The normalized query */ function syncTreeQueryForListening_(query) { if (query._queryParams.loadsAllData() && !query._queryParams.isDefault()) { // We treat queries that load all data as default queries // Cast is necessary because ref() technically returns Firebase which is actually fb.api.Firebase which inherits // from Query return new (syncTreeGetReferenceConstructor())(query._repo, query._path); } else { return query; } } function syncTreeRemoveTags_(syncTree, queries) { for (let j = 0; j < queries.length; ++j) { const removedQuery = queries[j]; if (!removedQuery._queryParams.loadsAllData()) { // We should have a tag for this const removedQueryKey = syncTreeMakeQueryKey_(removedQuery); const removedQueryTag = syncTree.queryToTagMap.get(removedQueryKey); syncTree.queryToTagMap.delete(removedQueryKey); syncTree.tagToQueryMap.delete(removedQueryTag); } } } /** * Static accessor for query tags. */ function syncTreeGetNextQueryTag_() { return syncTreeNextQueryTag_++; } /** * For a given new listen, manage the de-duplication of outstanding subscriptions. * * @returns This method can return events to support synchronous data sources */ function syncTreeSetupListener_(syncTree, query, view) { const path = query._path; const tag = syncTreeTagForQuery(syncTree, query); const listener = syncTreeCreateListenerForView_(syncTree, view); const events = syncTree.listenProvider_.startListening(syncTreeQueryForListening_(query), tag, listener.hashFn, listener.onComplete); const subtree = syncTree.syncPointTree_.subtree(path); // The root of this subtree has our query. We're here because we definitely need to send a listen for that, but we // may need to shadow other listens as well. if (tag) { assert(!syncPointHasCompleteView(subtree.value), "If we're adding a query, it shouldn't be shadowed"); } else { // Shadow everything at or below this location, this is a default listener. const queriesToStop = subtree.fold((relativePath, maybeChildSyncPoint, childMap) => { if (!pathIsEmpty(relativePath) && maybeChildSyncPoint && syncPointHasCompleteView(maybeChildSyncPoint)) { return [syncPointGetCompleteView(maybeChildSyncPoint).query]; } else { // No default listener here, flatten any deeper queries into an array let queries = []; if (maybeChildSyncPoint) { queries = queries.concat(syncPointGetQueryViews(maybeChildSyncPoint).map(view => view.query)); } each(childMap, (_key, childQueries) => { queries = queries.concat(childQueries); }); return queries; } }); for (let i = 0; i < queriesToStop.length; ++i) { const queryToStop = queriesToStop[i]; syncTree.listenProvider_.stopListening(syncTreeQueryForListening_(queryToStop), syncTreeTagForQuery(syncTree, queryToStop)); } } return events; } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ class ExistingValueProvider { constructor(node_) { this.node_ = node_; } getImmediateChild(childName) { const child = this.node_.getImmediateChild(childName); return new ExistingValueProvider(child); } node() { return this.node_; } } class DeferredValueProvider { constructor(syncTree, path) { this.syncTree_ = syncTree; this.path_ = path; } getImmediateChild(childName) { const childPath = pathChild(this.path_, childName); return new DeferredValueProvider(this.syncTree_, childPath); } node() { return syncTreeCalcCompleteEventCache(this.syncTree_, this.path_); } } /** * Generate placeholders for deferred values. */ const generateWithValues = function (values) { values = values || {}; values['timestamp'] = values['timestamp'] || new Date().getTime(); return values; }; /** * Value to use when firing local events. When writing server values, fire * local events with an approximate value, otherwise return value as-is. */ const resolveDeferredLeafValue = function (value, existingVal, serverValues) { if (!value || typeof value !== 'object') { return value; } assert('.sv' in value, 'Unexpected leaf node or priority contents'); if (typeof value['.sv'] === 'string') { return resolveScalarDeferredValue(value['.sv'], existingVal, serverValues); } else if (typeof value['.sv'] === 'object') { return resolveComplexDeferredValue(value['.sv'], existingVal); } else { assert(false, 'Unexpected server value: ' + JSON.stringify(value, null, 2)); } }; const resolveScalarDeferredValue = function (op, existing, serverValues) { switch (op) { case 'timestamp': return serverValues['timestamp']; default: assert(false, 'Unexpected server value: ' + op); } }; const resolveComplexDeferredValue = function (op, existing, unused) { if (!op.hasOwnProperty('increment')) { assert(false, 'Unexpected server value: ' + JSON.stringify(op, null, 2)); } const delta = op['increment']; if (typeof delta !== 'number') { assert(false, 'Unexpected increment value: ' + delta); } const existingNode = existing.node(); assert(existingNode !== null && typeof existingNode !== 'undefined', 'Expected ChildrenNode.EMPTY_NODE for nulls'); // Incrementing a non-number sets the value to the incremented amount if (!existingNode.isLeafNode()) { return delta; } const leaf = existingNode; const existingVal = leaf.getValue(); if (typeof existingVal !== 'number') { return delta; } // No need to do over/underflow arithmetic here because JS only handles floats under the covers return existingVal + delta; }; /** * Recursively replace all deferred values and priorities in the tree with the * specified generated replacement values. * @param path - path to which write is relative * @param node - new data written at path * @param syncTree - current data */ const resolveDeferredValueTree = function (path, node, syncTree, serverValues) { return resolveDeferredValue(node, new DeferredValueProvider(syncTree, path), serverValues); }; /** * Recursively replace all deferred values and priorities in the node with the * specified generated replacement values. If there are no server values in the node, * it'll be returned as-is. */ const resolveDeferredValueSnapshot = function (node, existing, serverValues) { return resolveDeferredValue(node, new ExistingValueProvider(existing), serverValues); }; function resolveDeferredValue(node, existingVal, serverValues) { const rawPri = node.getPriority().val(); const priority = resolveDeferredLeafValue(rawPri, existingVal.getImmediateChild('.priority'), serverValues); let newNode; if (node.isLeafNode()) { const leafNode = node; const value = resolveDeferredLeafValue(leafNode.getValue(), existingVal, serverValues); if (value !== leafNode.getValue() || priority !== leafNode.getPriority().val()) { return new LeafNode(value, nodeFromJSON(priority)); } else { return node; } } else { const childrenNode = node; newNode = childrenNode; if (priority !== childrenNode.getPriority().val()) { newNode = newNode.updatePriority(new LeafNode(priority)); } childrenNode.forEachChild(PRIORITY_INDEX, (childName, childNode) => { const newChildNode = resolveDeferredValue(childNode, existingVal.getImmediateChild(childName), serverValues); if (newChildNode !== childNode) { newNode = newNode.updateImmediateChild(childName, newChildNode); } }); return newNode; } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * A light-weight tree, traversable by path. Nodes can have both values and children. * Nodes are not enumerated (by forEachChild) unless they have a value or non-empty * children. */ class Tree { /** * @param name - Optional name of the node. * @param parent - Optional parent node. * @param node - Optional node to wrap. */ constructor(name = '', parent = null, node = { children: {}, childCount: 0 }) { this.name = name; this.parent = parent; this.node = node; } } /** * Returns a sub-Tree for the given path. * * @param pathObj - Path to look up. * @returns Tree for path. */ function treeSubTree(tree, pathObj) { // TODO: Require pathObj to be Path? let path = pathObj instanceof Path ? pathObj : new Path(pathObj); let child = tree, next = pathGetFront(path); while (next !== null) { const childNode = safeGet(child.node.children, next) || { children: {}, childCount: 0 }; child = new Tree(next, child, childNode); path = pathPopFront(path); next = pathGetFront(path); } return child; } /** * Returns the data associated with this tree node. * * @returns The data or null if no data exists. */ function treeGetValue(tree) { return tree.node.value; } /** * Sets data to this tree node. * * @param value - Value to set. */ function treeSetValue(tree, value) { tree.node.value = value; treeUpdateParents(tree); } /** * @returns Whether the tree has any children. */ function treeHasChildren(tree) { return tree.node.childCount > 0; } /** * @returns Whethe rthe tree is empty (no value or children). */ function treeIsEmpty(tree) { return treeGetValue(tree) === undefined && !treeHasChildren(tree); } /** * Calls action for each child of this tree node. * * @param action - Action to be called for each child. */ function treeForEachChild(tree, action) { each(tree.node.children, (child, childTree) => { action(new Tree(child, tree, childTree)); }); } /** * Does a depth-first traversal of this node's descendants, calling action for each one. * * @param action - Action to be called for each child. * @param includeSelf - Whether to call action on this node as well. Defaults to * false. * @param childrenFirst - Whether to call action on children before calling it on * parent. */ function treeForEachDescendant(tree, action, includeSelf, childrenFirst) { if (includeSelf && !childrenFirst) { action(tree); } treeForEachChild(tree, child => { treeForEachDescendant(child, action, true, childrenFirst); }); if (includeSelf && childrenFirst) { action(tree); } } /** * Calls action on each ancestor node. * * @param action - Action to be called on each parent; return * true to abort. * @param includeSelf - Whether to call action on this node as well. * @returns true if the action callback returned true. */ function treeForEachAncestor(tree, action, includeSelf) { let node = includeSelf ? tree : tree.parent; while (node !== null) { if (action(node)) { return true; } node = node.parent; } return false; } /** * @returns The path of this tree node, as a Path. */ function treeGetPath(tree) { return new Path(tree.parent === null ? tree.name : treeGetPath(tree.parent) + '/' + tree.name); } /** * Adds or removes this child from its parent based on whether it's empty or not. */ function treeUpdateParents(tree) { if (tree.parent !== null) { treeUpdateChild(tree.parent, tree.name, tree); } } /** * Adds or removes the passed child to this tree node, depending on whether it's empty. * * @param childName - The name of the child to update. * @param child - The child to update. */ function treeUpdateChild(tree, childName, child) { const childEmpty = treeIsEmpty(child); const childExists = contains(tree.node.children, childName); if (childEmpty && childExists) { delete tree.node.children[childName]; tree.node.childCount--; treeUpdateParents(tree); } else if (!childEmpty && !childExists) { tree.node.children[childName] = child.node; tree.node.childCount++; treeUpdateParents(tree); } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * True for invalid Firebase keys */ const INVALID_KEY_REGEX_ = /[\[\].#$\/\u0000-\u001F\u007F]/; /** * True for invalid Firebase paths. * Allows '/' in paths. */ const INVALID_PATH_REGEX_ = /[\[\].#$\u0000-\u001F\u007F]/; /** * Maximum number of characters to allow in leaf value */ const MAX_LEAF_SIZE_ = 10 * 1024 * 1024; const isValidKey = function (key) { return (typeof key === 'string' && key.length !== 0 && !INVALID_KEY_REGEX_.test(key)); }; const isValidPathString = function (pathString) { return (typeof pathString === 'string' && pathString.length !== 0 && !INVALID_PATH_REGEX_.test(pathString)); }; const isValidRootPathString = function (pathString) { if (pathString) { // Allow '/.info/' at the beginning. pathString = pathString.replace(/^\/*\.info(\/|$)/, '/'); } return isValidPathString(pathString); }; const isValidPriority = function (priority) { return (priority === null || typeof priority === 'string' || (typeof priority === 'number' && !isInvalidJSONNumber(priority)) || (priority && typeof priority === 'object' && // eslint-disable-next-line @typescript-eslint/no-explicit-any contains(priority, '.sv'))); }; /** * Pre-validate a datum passed as an argument to Firebase function. */ const validateFirebaseDataArg = function (fnName, value, path, optional) { if (optional && value === undefined) { return; } validateFirebaseData(errorPrefix(fnName, 'value'), value, path); }; /** * Validate a data object client-side before sending to server. */ const validateFirebaseData = function (errorPrefix, data, path_) { const path = path_ instanceof Path ? new ValidationPath(path_, errorPrefix) : path_; if (data === undefined) { throw new Error(errorPrefix + 'contains undefined ' + validationPathToErrorString(path)); } if (typeof data === 'function') { throw new Error(errorPrefix + 'contains a function ' + validationPathToErrorString(path) + ' with contents = ' + data.toString()); } if (isInvalidJSONNumber(data)) { throw new Error(errorPrefix + 'contains ' + data.toString() + ' ' + validationPathToErrorString(path)); } // Check max leaf size, but try to avoid the utf8 conversion if we can. if (typeof data === 'string' && data.length > MAX_LEAF_SIZE_ / 3 && stringLength(data) > MAX_LEAF_SIZE_) { throw new Error(errorPrefix + 'contains a string greater than ' + MAX_LEAF_SIZE_ + ' utf8 bytes ' + validationPathToErrorString(path) + " ('" + data.substring(0, 50) + "...')"); } // TODO = Perf = Consider combining the recursive validation of keys into NodeFromJSON // to save extra walking of large objects. if (data && typeof data === 'object') { let hasDotValue = false; let hasActualChild = false; each(data, (key, value) => { if (key === '.value') { hasDotValue = true; } else if (key !== '.priority' && key !== '.sv') { hasActualChild = true; if (!isValidKey(key)) { throw new Error(errorPrefix + ' contains an invalid key (' + key + ') ' + validationPathToErrorString(path) + '. Keys must be non-empty strings ' + 'and can\'t contain ".", "#", "$", "/", "[", or "]"'); } } validationPathPush(path, key); validateFirebaseData(errorPrefix, value, path); validationPathPop(path); }); if (hasDotValue && hasActualChild) { throw new Error(errorPrefix + ' contains ".value" child ' + validationPathToErrorString(path) + ' in addition to actual children.'); } } }; /** * Pre-validate paths passed in the firebase function. */ const validateFirebaseMergePaths = function (errorPrefix, mergePaths) { let i, curPath; for (i = 0; i < mergePaths.length; i++) { curPath = mergePaths[i]; const keys = pathSlice(curPath); for (let j = 0; j < keys.length; j++) { if (keys[j] === '.priority' && j === keys.length - 1) ; else if (!isValidKey(keys[j])) { throw new Error(errorPrefix + 'contains an invalid key (' + keys[j] + ') in path ' + curPath.toString() + '. Keys must be non-empty strings ' + 'and can\'t contain ".", "#", "$", "/", "[", or "]"'); } } } // Check that update keys are not descendants of each other. // We rely on the property that sorting guarantees that ancestors come // right before descendants. mergePaths.sort(pathCompare); let prevPath = null; for (i = 0; i < mergePaths.length; i++) { curPath = mergePaths[i]; if (prevPath !== null && pathContains(prevPath, curPath)) { throw new Error(errorPrefix + 'contains a path ' + prevPath.toString() + ' that is ancestor of another path ' + curPath.toString()); } prevPath = curPath; } }; /** * pre-validate an object passed as an argument to firebase function ( * must be an object - e.g. for firebase.update()). */ const validateFirebaseMergeDataArg = function (fnName, data, path, optional) { if (optional && data === undefined) { return; } const errorPrefix$1 = errorPrefix(fnName, 'values'); if (!(data && typeof data === 'object') || Array.isArray(data)) { throw new Error(errorPrefix$1 + ' must be an object containing the children to replace.'); } const mergePaths = []; each(data, (key, value) => { const curPath = new Path(key); validateFirebaseData(errorPrefix$1, value, pathChild(path, curPath)); if (pathGetBack(curPath) === '.priority') { if (!isValidPriority(value)) { throw new Error(errorPrefix$1 + "contains an invalid value for '" + curPath.toString() + "', which must be a valid " + 'Firebase priority (a string, finite number, server value, or null).'); } } mergePaths.push(curPath); }); validateFirebaseMergePaths(errorPrefix$1, mergePaths); }; const validatePriority = function (fnName, priority, optional) { if (optional && priority === undefined) { return; } if (isInvalidJSONNumber(priority)) { throw new Error(errorPrefix(fnName, 'priority') + 'is ' + priority.toString() + ', but must be a valid Firebase priority (a string, finite number, ' + 'server value, or null).'); } // Special case to allow importing data with a .sv. if (!isValidPriority(priority)) { throw new Error(errorPrefix(fnName, 'priority') + 'must be a valid Firebase priority ' + '(a string, finite number, server value, or null).'); } }; const validateKey = function (fnName, argumentName, key, optional) { if (optional && key === undefined) { return; } if (!isValidKey(key)) { throw new Error(errorPrefix(fnName, argumentName) + 'was an invalid key = "' + key + '". Firebase keys must be non-empty strings and ' + 'can\'t contain ".", "#", "$", "/", "[", or "]").'); } }; /** * @internal */ const validatePathString = function (fnName, argumentName, pathString, optional) { if (optional && pathString === undefined) { return; } if (!isValidPathString(pathString)) { throw new Error(errorPrefix(fnName, argumentName) + 'was an invalid path = "' + pathString + '". Paths must be non-empty strings and ' + 'can\'t contain ".", "#", "$", "[", or "]"'); } }; const validateRootPathString = function (fnName, argumentName, pathString, optional) { if (pathString) { // Allow '/.info/' at the beginning. pathString = pathString.replace(/^\/*\.info(\/|$)/, '/'); } validatePathString(fnName, argumentName, pathString, optional); }; /** * @internal */ const validateWritablePath = function (fnName, path) { if (pathGetFront(path) === '.info') { throw new Error(fnName + " failed = Can't modify data under /.info/"); } }; const validateUrl = function (fnName, parsedUrl) { // TODO = Validate server better. const pathString = parsedUrl.path.toString(); if (!(typeof parsedUrl.repoInfo.host === 'string') || parsedUrl.repoInfo.host.length === 0 || (!isValidKey(parsedUrl.repoInfo.namespace) && parsedUrl.repoInfo.host.split(':')[0] !== 'localhost') || (pathString.length !== 0 && !isValidRootPathString(pathString))) { throw new Error(errorPrefix(fnName, 'url') + 'must be a valid firebase URL and ' + 'the path can\'t contain ".", "#", "$", "[", or "]".'); } }; /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * The event queue serves a few purposes: * 1. It ensures we maintain event order in the face of event callbacks doing operations that result in more * events being queued. * 2. raiseQueuedEvents() handles being called reentrantly nicely. That is, if in the course of raising events, * raiseQueuedEvents() is called again, the "inner" call will pick up raising events where the "outer" call * left off, ensuring that the events are still raised synchronously and in order. * 3. You can use raiseEventsAtPath and raiseEventsForChangedPath to ensure only relevant previously-queued * events are raised synchronously. * * NOTE: This can all go away if/when we move to async events. * */ class EventQueue { constructor() { this.eventLists_ = []; /** * Tracks recursion depth of raiseQueuedEvents_, for debugging purposes. */ this.recursionDepth_ = 0; } } /** * @param eventDataList - The new events to queue. */ function eventQueueQueueEvents(eventQueue, eventDataList) { // We group events by path, storing them in a single EventList, to make it easier to skip over them quickly. let currList = null; for (let i = 0; i < eventDataList.length; i++) { const data = eventDataList[i]; const path = data.getPath(); if (currList !== null && !pathEquals(path, currList.path)) { eventQueue.eventLists_.push(currList); currList = null; } if (currList === null) { currList = { events: [], path }; } currList.events.push(data); } if (currList) { eventQueue.eventLists_.push(currList); } } /** * Queues the specified events and synchronously raises all events (including previously queued ones) * for the specified path. * * It is assumed that the new events are all for the specified path. * * @param path - The path to raise events for. * @param eventDataList - The new events to raise. */ function eventQueueRaiseEventsAtPath(eventQueue, path, eventDataList) { eventQueueQueueEvents(eventQueue, eventDataList); eventQueueRaiseQueuedEventsMatchingPredicate(eventQueue, eventPath => pathEquals(eventPath, path)); } /** * Queues the specified events and synchronously raises all events (including previously queued ones) for * locations related to the specified change path (i.e. all ancestors and descendants). * * It is assumed that the new events are all related (ancestor or descendant) to the specified path. * * @param changedPath - The path to raise events for. * @param eventDataList - The events to raise */ function eventQueueRaiseEventsForChangedPath(eventQueue, changedPath, eventDataList) { eventQueueQueueEvents(eventQueue, eventDataList); eventQueueRaiseQueuedEventsMatchingPredicate(eventQueue, eventPath => pathContains(eventPath, changedPath) || pathContains(changedPath, eventPath)); } function eventQueueRaiseQueuedEventsMatchingPredicate(eventQueue, predicate) { eventQueue.recursionDepth_++; let sentAll = true; for (let i = 0; i < eventQueue.eventLists_.length; i++) { const eventList = eventQueue.eventLists_[i]; if (eventList) { const eventPath = eventList.path; if (predicate(eventPath)) { eventListRaise(eventQueue.eventLists_[i]); eventQueue.eventLists_[i] = null; } else { sentAll = false; } } } if (sentAll) { eventQueue.eventLists_ = []; } eventQueue.recursionDepth_--; } /** * Iterates through the list and raises each event */ function eventListRaise(eventList) { for (let i = 0; i < eventList.events.length; i++) { const eventData = eventList.events[i]; if (eventData !== null) { eventList.events[i] = null; const eventFn = eventData.getEventRunner(); if (logger) { log('event: ' + eventData.toString()); } exceptionGuard(eventFn); } } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ const INTERRUPT_REASON = 'repo_interrupt'; /** * If a transaction does not succeed after 25 retries, we abort it. Among other * things this ensure that if there's ever a bug causing a mismatch between * client / server hashes for some data, we won't retry indefinitely. */ const MAX_TRANSACTION_RETRIES = 25; /** * A connection to a single data repository. */ class Repo { constructor(repoInfo_, forceRestClient_, authTokenProvider_, appCheckProvider_) { this.repoInfo_ = repoInfo_; this.forceRestClient_ = forceRestClient_; this.authTokenProvider_ = authTokenProvider_; this.appCheckProvider_ = appCheckProvider_; this.dataUpdateCount = 0; this.statsListener_ = null; this.eventQueue_ = new EventQueue(); this.nextWriteId_ = 1; this.interceptServerDataCallback_ = null; /** A list of data pieces and paths to be set when this client disconnects. */ this.onDisconnect_ = newSparseSnapshotTree(); /** Stores queues of outstanding transactions for Firebase locations. */ this.transactionQueueTree_ = new Tree(); // TODO: This should be @private but it's used by test_access.js and internal.js this.persistentConnection_ = null; // This key is intentionally not updated if RepoInfo is later changed or replaced this.key = this.repoInfo_.toURLString(); } /** * @returns The URL corresponding to the root of this Firebase. */ toString() { return ((this.repoInfo_.secure ? 'https://' : 'http://') + this.repoInfo_.host); } } function repoStart(repo, appId, authOverride) { repo.stats_ = statsManagerGetCollection(repo.repoInfo_); if (repo.forceRestClient_ || beingCrawled()) { repo.server_ = new ReadonlyRestClient(repo.repoInfo_, (pathString, data, isMerge, tag) => { repoOnDataUpdate(repo, pathString, data, isMerge, tag); }, repo.authTokenProvider_, repo.appCheckProvider_); // Minor hack: Fire onConnect immediately, since there's no actual connection. setTimeout(() => repoOnConnectStatus(repo, /* connectStatus= */ true), 0); } else { // Validate authOverride if (typeof authOverride !== 'undefined' && authOverride !== null) { if (typeof authOverride !== 'object') { throw new Error('Only objects are supported for option databaseAuthVariableOverride'); } try { stringify(authOverride); } catch (e) { throw new Error('Invalid authOverride provided: ' + e); } } repo.persistentConnection_ = new PersistentConnection(repo.repoInfo_, appId, (pathString, data, isMerge, tag) => { repoOnDataUpdate(repo, pathString, data, isMerge, tag); }, (connectStatus) => { repoOnConnectStatus(repo, connectStatus); }, (updates) => { repoOnServerInfoUpdate(repo, updates); }, repo.authTokenProvider_, repo.appCheckProvider_, authOverride); repo.server_ = repo.persistentConnection_; } repo.authTokenProvider_.addTokenChangeListener(token => { repo.server_.refreshAuthToken(token); }); repo.appCheckProvider_.addTokenChangeListener(result => { repo.server_.refreshAppCheckToken(result.token); }); // In the case of multiple Repos for the same repoInfo (i.e. there are multiple Firebase.Contexts being used), // we only want to create one StatsReporter. As such, we'll report stats over the first Repo created. repo.statsReporter_ = statsManagerGetOrCreateReporter(repo.repoInfo_, () => new StatsReporter(repo.stats_, repo.server_)); // Used for .info. repo.infoData_ = new SnapshotHolder(); repo.infoSyncTree_ = new SyncTree({ startListening: (query, tag, currentHashFn, onComplete) => { let infoEvents = []; const node = repo.infoData_.getNode(query._path); // This is possibly a hack, but we have different semantics for .info endpoints. We don't raise null events // on initial data... if (!node.isEmpty()) { infoEvents = syncTreeApplyServerOverwrite(repo.infoSyncTree_, query._path, node); setTimeout(() => { onComplete('ok'); }, 0); } return infoEvents; }, stopListening: () => { } }); repoUpdateInfo(repo, 'connected', false); repo.serverSyncTree_ = new SyncTree({ startListening: (query, tag, currentHashFn, onComplete) => { repo.server_.listen(query, currentHashFn, tag, (status, data) => { const events = onComplete(status, data); eventQueueRaiseEventsForChangedPath(repo.eventQueue_, query._path, events); }); // No synchronous events for network-backed sync trees return []; }, stopListening: (query, tag) => { repo.server_.unlisten(query, tag); } }); } /** * @returns The time in milliseconds, taking the server offset into account if we have one. */ function repoServerTime(repo) { const offsetNode = repo.infoData_.getNode(new Path('.info/serverTimeOffset')); const offset = offsetNode.val() || 0; return new Date().getTime() + offset; } /** * Generate ServerValues using some variables from the repo object. */ function repoGenerateServerValues(repo) { return generateWithValues({ timestamp: repoServerTime(repo) }); } /** * Called by realtime when we get new messages from the server. */ function repoOnDataUpdate(repo, pathString, data, isMerge, tag) { // For testing. repo.dataUpdateCount++; const path = new Path(pathString); data = repo.interceptServerDataCallback_ ? repo.interceptServerDataCallback_(pathString, data) : data; let events = []; if (tag) { if (isMerge) { const taggedChildren = map(data, (raw) => nodeFromJSON(raw)); events = syncTreeApplyTaggedQueryMerge(repo.serverSyncTree_, path, taggedChildren, tag); } else { const taggedSnap = nodeFromJSON(data); events = syncTreeApplyTaggedQueryOverwrite(repo.serverSyncTree_, path, taggedSnap, tag); } } else if (isMerge) { const changedChildren = map(data, (raw) => nodeFromJSON(raw)); events = syncTreeApplyServerMerge(repo.serverSyncTree_, path, changedChildren); } else { const snap = nodeFromJSON(data); events = syncTreeApplyServerOverwrite(repo.serverSyncTree_, path, snap); } let affectedPath = path; if (events.length > 0) { // Since we have a listener outstanding for each transaction, receiving any events // is a proxy for some change having occurred. affectedPath = repoRerunTransactions(repo, path); } eventQueueRaiseEventsForChangedPath(repo.eventQueue_, affectedPath, events); } function repoOnConnectStatus(repo, connectStatus) { repoUpdateInfo(repo, 'connected', connectStatus); if (connectStatus === false) { repoRunOnDisconnectEvents(repo); } } function repoOnServerInfoUpdate(repo, updates) { each(updates, (key, value) => { repoUpdateInfo(repo, key, value); }); } function repoUpdateInfo(repo, pathString, value) { const path = new Path('/.info/' + pathString); const newNode = nodeFromJSON(value); repo.infoData_.updateSnapshot(path, newNode); const events = syncTreeApplyServerOverwrite(repo.infoSyncTree_, path, newNode); eventQueueRaiseEventsForChangedPath(repo.eventQueue_, path, events); } function repoGetNextWriteId(repo) { return repo.nextWriteId_++; } /** * The purpose of `getValue` is to return the latest known value * satisfying `query`. * * This method will first check for in-memory cached values * belonging to active listeners. If they are found, such values * are considered to be the most up-to-date. * * If the client is not connected, this method will wait until the * repo has established a connection and then request the value for `query`. * If the client is not able to retrieve the query result for another reason, * it reports an error. * * @param query - The query to surface a value for. */ function repoGetValue(repo, query, eventRegistration) { // Only active queries are cached. There is no persisted cache. const cached = syncTreeGetServerValue(repo.serverSyncTree_, query); if (cached != null) { return Promise.resolve(cached); } return repo.server_.get(query).then(payload => { const node = nodeFromJSON(payload).withIndex(query._queryParams.getIndex()); /** * Below we simulate the actions of an `onlyOnce` `onValue()` event where: * Add an event registration, * Update data at the path, * Raise any events, * Cleanup the SyncTree */ syncTreeAddEventRegistration(repo.serverSyncTree_, query, eventRegistration, true); let events; if (query._queryParams.loadsAllData()) { events = syncTreeApplyServerOverwrite(repo.serverSyncTree_, query._path, node); } else { const tag = syncTreeTagForQuery(repo.serverSyncTree_, query); events = syncTreeApplyTaggedQueryOverwrite(repo.serverSyncTree_, query._path, node, tag); } /* * We need to raise events in the scenario where `get()` is called at a parent path, and * while the `get()` is pending, `onValue` is called at a child location. While get() is waiting * for the data, `onValue` will register a new event. Then, get() will come back, and update the syncTree * and its corresponding serverCache, including the child location where `onValue` is called. Then, * `onValue` will receive the event from the server, but look at the syncTree and see that the data received * from the server is already at the SyncPoint, and so the `onValue` callback will never get fired. * Calling `eventQueueRaiseEventsForChangedPath()` is the correct way to propagate the events and * ensure the corresponding child events will get fired. */ eventQueueRaiseEventsForChangedPath(repo.eventQueue_, query._path, events); syncTreeRemoveEventRegistration(repo.serverSyncTree_, query, eventRegistration, null, true); return node; }, err => { repoLog(repo, 'get for query ' + stringify(query) + ' failed: ' + err); return Promise.reject(new Error(err)); }); } function repoSetWithPriority(repo, path, newVal, newPriority, onComplete) { repoLog(repo, 'set', { path: path.toString(), value: newVal, priority: newPriority }); // TODO: Optimize this behavior to either (a) store flag to skip resolving where possible and / or // (b) store unresolved paths on JSON parse const serverValues = repoGenerateServerValues(repo); const newNodeUnresolved = nodeFromJSON(newVal, newPriority); const existing = syncTreeCalcCompleteEventCache(repo.serverSyncTree_, path); const newNode = resolveDeferredValueSnapshot(newNodeUnresolved, existing, serverValues); const writeId = repoGetNextWriteId(repo); const events = syncTreeApplyUserOverwrite(repo.serverSyncTree_, path, newNode, writeId, true); eventQueueQueueEvents(repo.eventQueue_, events); repo.server_.put(path.toString(), newNodeUnresolved.val(/*export=*/ true), (status, errorReason) => { const success = status === 'ok'; if (!success) { warn('set at ' + path + ' failed: ' + status); } const clearEvents = syncTreeAckUserWrite(repo.serverSyncTree_, writeId, !success); eventQueueRaiseEventsForChangedPath(repo.eventQueue_, path, clearEvents); repoCallOnCompleteCallback(repo, onComplete, status, errorReason); }); const affectedPath = repoAbortTransactions(repo, path); repoRerunTransactions(repo, affectedPath); // We queued the events above, so just flush the queue here eventQueueRaiseEventsForChangedPath(repo.eventQueue_, affectedPath, []); } function repoUpdate(repo, path, childrenToMerge, onComplete) { repoLog(repo, 'update', { path: path.toString(), value: childrenToMerge }); // Start with our existing data and merge each child into it. let empty = true; const serverValues = repoGenerateServerValues(repo); const changedChildren = {}; each(childrenToMerge, (changedKey, changedValue) => { empty = false; changedChildren[changedKey] = resolveDeferredValueTree(pathChild(path, changedKey), nodeFromJSON(changedValue), repo.serverSyncTree_, serverValues); }); if (!empty) { const writeId = repoGetNextWriteId(repo); const events = syncTreeApplyUserMerge(repo.serverSyncTree_, path, changedChildren, writeId); eventQueueQueueEvents(repo.eventQueue_, events); repo.server_.merge(path.toString(), childrenToMerge, (status, errorReason) => { const success = status === 'ok'; if (!success) { warn('update at ' + path + ' failed: ' + status); } const clearEvents = syncTreeAckUserWrite(repo.serverSyncTree_, writeId, !success); const affectedPath = clearEvents.length > 0 ? repoRerunTransactions(repo, path) : path; eventQueueRaiseEventsForChangedPath(repo.eventQueue_, affectedPath, clearEvents); repoCallOnCompleteCallback(repo, onComplete, status, errorReason); }); each(childrenToMerge, (changedPath) => { const affectedPath = repoAbortTransactions(repo, pathChild(path, changedPath)); repoRerunTransactions(repo, affectedPath); }); // We queued the events above, so just flush the queue here eventQueueRaiseEventsForChangedPath(repo.eventQueue_, path, []); } else { log("update() called with empty data. Don't do anything."); repoCallOnCompleteCallback(repo, onComplete, 'ok', undefined); } } /** * Applies all of the changes stored up in the onDisconnect_ tree. */ function repoRunOnDisconnectEvents(repo) { repoLog(repo, 'onDisconnectEvents'); const serverValues = repoGenerateServerValues(repo); const resolvedOnDisconnectTree = newSparseSnapshotTree(); sparseSnapshotTreeForEachTree(repo.onDisconnect_, newEmptyPath(), (path, node) => { const resolved = resolveDeferredValueTree(path, node, repo.serverSyncTree_, serverValues); sparseSnapshotTreeRemember(resolvedOnDisconnectTree, path, resolved); }); let events = []; sparseSnapshotTreeForEachTree(resolvedOnDisconnectTree, newEmptyPath(), (path, snap) => { events = events.concat(syncTreeApplyServerOverwrite(repo.serverSyncTree_, path, snap)); const affectedPath = repoAbortTransactions(repo, path); repoRerunTransactions(repo, affectedPath); }); repo.onDisconnect_ = newSparseSnapshotTree(); eventQueueRaiseEventsForChangedPath(repo.eventQueue_, newEmptyPath(), events); } function repoOnDisconnectCancel(repo, path, onComplete) { repo.server_.onDisconnectCancel(path.toString(), (status, errorReason) => { if (status === 'ok') { sparseSnapshotTreeForget(repo.onDisconnect_, path); } repoCallOnCompleteCallback(repo, onComplete, status, errorReason); }); } function repoOnDisconnectSet(repo, path, value, onComplete) { const newNode = nodeFromJSON(value); repo.server_.onDisconnectPut(path.toString(), newNode.val(/*export=*/ true), (status, errorReason) => { if (status === 'ok') { sparseSnapshotTreeRemember(repo.onDisconnect_, path, newNode); } repoCallOnCompleteCallback(repo, onComplete, status, errorReason); }); } function repoOnDisconnectSetWithPriority(repo, path, value, priority, onComplete) { const newNode = nodeFromJSON(value, priority); repo.server_.onDisconnectPut(path.toString(), newNode.val(/*export=*/ true), (status, errorReason) => { if (status === 'ok') { sparseSnapshotTreeRemember(repo.onDisconnect_, path, newNode); } repoCallOnCompleteCallback(repo, onComplete, status, errorReason); }); } function repoOnDisconnectUpdate(repo, path, childrenToMerge, onComplete) { if (isEmpty(childrenToMerge)) { log("onDisconnect().update() called with empty data. Don't do anything."); repoCallOnCompleteCallback(repo, onComplete, 'ok', undefined); return; } repo.server_.onDisconnectMerge(path.toString(), childrenToMerge, (status, errorReason) => { if (status === 'ok') { each(childrenToMerge, (childName, childNode) => { const newChildNode = nodeFromJSON(childNode); sparseSnapshotTreeRemember(repo.onDisconnect_, pathChild(path, childName), newChildNode); }); } repoCallOnCompleteCallback(repo, onComplete, status, errorReason); }); } function repoAddEventCallbackForQuery(repo, query, eventRegistration) { let events; if (pathGetFront(query._path) === '.info') { events = syncTreeAddEventRegistration(repo.infoSyncTree_, query, eventRegistration); } else { events = syncTreeAddEventRegistration(repo.serverSyncTree_, query, eventRegistration); } eventQueueRaiseEventsAtPath(repo.eventQueue_, query._path, events); } function repoRemoveEventCallbackForQuery(repo, query, eventRegistration) { // These are guaranteed not to raise events, since we're not passing in a cancelError. However, we can future-proof // a little bit by handling the return values anyways. let events; if (pathGetFront(query._path) === '.info') { events = syncTreeRemoveEventRegistration(repo.infoSyncTree_, query, eventRegistration); } else { events = syncTreeRemoveEventRegistration(repo.serverSyncTree_, query, eventRegistration); } eventQueueRaiseEventsAtPath(repo.eventQueue_, query._path, events); } function repoInterrupt(repo) { if (repo.persistentConnection_) { repo.persistentConnection_.interrupt(INTERRUPT_REASON); } } function repoResume(repo) { if (repo.persistentConnection_) { repo.persistentConnection_.resume(INTERRUPT_REASON); } } function repoLog(repo, ...varArgs) { let prefix = ''; if (repo.persistentConnection_) { prefix = repo.persistentConnection_.id + ':'; } log(prefix, ...varArgs); } function repoCallOnCompleteCallback(repo, callback, status, errorReason) { if (callback) { exceptionGuard(() => { if (status === 'ok') { callback(null); } else { const code = (status || 'error').toUpperCase(); let message = code; if (errorReason) { message += ': ' + errorReason; } const error = new Error(message); // eslint-disable-next-line @typescript-eslint/no-explicit-any error.code = code; callback(error); } }); } } /** * Creates a new transaction, adds it to the transactions we're tracking, and * sends it to the server if possible. * * @param path - Path at which to do transaction. * @param transactionUpdate - Update callback. * @param onComplete - Completion callback. * @param unwatcher - Function that will be called when the transaction no longer * need data updates for `path`. * @param applyLocally - Whether or not to make intermediate results visible */ function repoStartTransaction(repo, path, transactionUpdate, onComplete, unwatcher, applyLocally) { repoLog(repo, 'transaction on ' + path); // Initialize transaction. const transaction = { path, update: transactionUpdate, onComplete, // One of TransactionStatus enums. status: null, // Used when combining transactions at different locations to figure out // which one goes first. order: LUIDGenerator(), // Whether to raise local events for this transaction. applyLocally, // Count of how many times we've retried the transaction. retryCount: 0, // Function to call to clean up our .on() listener. unwatcher, // Stores why a transaction was aborted. abortReason: null, currentWriteId: null, currentInputSnapshot: null, currentOutputSnapshotRaw: null, currentOutputSnapshotResolved: null }; // Run transaction initially. const currentState = repoGetLatestState(repo, path, undefined); transaction.currentInputSnapshot = currentState; const newVal = transaction.update(currentState.val()); if (newVal === undefined) { // Abort transaction. transaction.unwatcher(); transaction.currentOutputSnapshotRaw = null; transaction.currentOutputSnapshotResolved = null; if (transaction.onComplete) { transaction.onComplete(null, false, transaction.currentInputSnapshot); } } else { validateFirebaseData('transaction failed: Data returned ', newVal, transaction.path); // Mark as run and add to our queue. transaction.status = 0 /* TransactionStatus.RUN */; const queueNode = treeSubTree(repo.transactionQueueTree_, path); const nodeQueue = treeGetValue(queueNode) || []; nodeQueue.push(transaction); treeSetValue(queueNode, nodeQueue); // Update visibleData and raise events // Note: We intentionally raise events after updating all of our // transaction state, since the user could start new transactions from the // event callbacks. let priorityForNode; if (typeof newVal === 'object' && newVal !== null && contains(newVal, '.priority')) { // eslint-disable-next-line @typescript-eslint/no-explicit-any priorityForNode = safeGet(newVal, '.priority'); assert(isValidPriority(priorityForNode), 'Invalid priority returned by transaction. ' + 'Priority must be a valid string, finite number, server value, or null.'); } else { const currentNode = syncTreeCalcCompleteEventCache(repo.serverSyncTree_, path) || ChildrenNode.EMPTY_NODE; priorityForNode = currentNode.getPriority().val(); } const serverValues = repoGenerateServerValues(repo); const newNodeUnresolved = nodeFromJSON(newVal, priorityForNode); const newNode = resolveDeferredValueSnapshot(newNodeUnresolved, currentState, serverValues); transaction.currentOutputSnapshotRaw = newNodeUnresolved; transaction.currentOutputSnapshotResolved = newNode; transaction.currentWriteId = repoGetNextWriteId(repo); const events = syncTreeApplyUserOverwrite(repo.serverSyncTree_, path, newNode, transaction.currentWriteId, transaction.applyLocally); eventQueueRaiseEventsForChangedPath(repo.eventQueue_, path, events); repoSendReadyTransactions(repo, repo.transactionQueueTree_); } } /** * @param excludeSets - A specific set to exclude */ function repoGetLatestState(repo, path, excludeSets) { return (syncTreeCalcCompleteEventCache(repo.serverSyncTree_, path, excludeSets) || ChildrenNode.EMPTY_NODE); } /** * Sends any already-run transactions that aren't waiting for outstanding * transactions to complete. * * Externally it's called with no arguments, but it calls itself recursively * with a particular transactionQueueTree node to recurse through the tree. * * @param node - transactionQueueTree node to start at. */ function repoSendReadyTransactions(repo, node = repo.transactionQueueTree_) { // Before recursing, make sure any completed transactions are removed. if (!node) { repoPruneCompletedTransactionsBelowNode(repo, node); } if (treeGetValue(node)) { const queue = repoBuildTransactionQueue(repo, node); assert(queue.length > 0, 'Sending zero length transaction queue'); const allRun = queue.every((transaction) => transaction.status === 0 /* TransactionStatus.RUN */); // If they're all run (and not sent), we can send them. Else, we must wait. if (allRun) { repoSendTransactionQueue(repo, treeGetPath(node), queue); } } else if (treeHasChildren(node)) { treeForEachChild(node, childNode => { repoSendReadyTransactions(repo, childNode); }); } } /** * Given a list of run transactions, send them to the server and then handle * the result (success or failure). * * @param path - The location of the queue. * @param queue - Queue of transactions under the specified location. */ function repoSendTransactionQueue(repo, path, queue) { // Mark transactions as sent and increment retry count! const setsToIgnore = queue.map(txn => { return txn.currentWriteId; }); const latestState = repoGetLatestState(repo, path, setsToIgnore); let snapToSend = latestState; const latestHash = latestState.hash(); for (let i = 0; i < queue.length; i++) { const txn = queue[i]; assert(txn.status === 0 /* TransactionStatus.RUN */, 'tryToSendTransactionQueue_: items in queue should all be run.'); txn.status = 1 /* TransactionStatus.SENT */; txn.retryCount++; const relativePath = newRelativePath(path, txn.path); // If we've gotten to this point, the output snapshot must be defined. snapToSend = snapToSend.updateChild(relativePath /** @type {!Node} */, txn.currentOutputSnapshotRaw); } const dataToSend = snapToSend.val(true); const pathToSend = path; // Send the put. repo.server_.put(pathToSend.toString(), dataToSend, (status) => { repoLog(repo, 'transaction put response', { path: pathToSend.toString(), status }); let events = []; if (status === 'ok') { // Queue up the callbacks and fire them after cleaning up all of our // transaction state, since the callback could trigger more // transactions or sets. const callbacks = []; for (let i = 0; i < queue.length; i++) { queue[i].status = 2 /* TransactionStatus.COMPLETED */; events = events.concat(syncTreeAckUserWrite(repo.serverSyncTree_, queue[i].currentWriteId)); if (queue[i].onComplete) { // We never unset the output snapshot, and given that this // transaction is complete, it should be set callbacks.push(() => queue[i].onComplete(null, true, queue[i].currentOutputSnapshotResolved)); } queue[i].unwatcher(); } // Now remove the completed transactions. repoPruneCompletedTransactionsBelowNode(repo, treeSubTree(repo.transactionQueueTree_, path)); // There may be pending transactions that we can now send. repoSendReadyTransactions(repo, repo.transactionQueueTree_); eventQueueRaiseEventsForChangedPath(repo.eventQueue_, path, events); // Finally, trigger onComplete callbacks. for (let i = 0; i < callbacks.length; i++) { exceptionGuard(callbacks[i]); } } else { // transactions are no longer sent. Update their status appropriately. if (status === 'datastale') { for (let i = 0; i < queue.length; i++) { if (queue[i].status === 3 /* TransactionStatus.SENT_NEEDS_ABORT */) { queue[i].status = 4 /* TransactionStatus.NEEDS_ABORT */; } else { queue[i].status = 0 /* TransactionStatus.RUN */; } } } else { warn('transaction at ' + pathToSend.toString() + ' failed: ' + status); for (let i = 0; i < queue.length; i++) { queue[i].status = 4 /* TransactionStatus.NEEDS_ABORT */; queue[i].abortReason = status; } } repoRerunTransactions(repo, path); } }, latestHash); } /** * Finds all transactions dependent on the data at changedPath and reruns them. * * Should be called any time cached data changes. * * Return the highest path that was affected by rerunning transactions. This * is the path at which events need to be raised for. * * @param changedPath - The path in mergedData that changed. * @returns The rootmost path that was affected by rerunning transactions. */ function repoRerunTransactions(repo, changedPath) { const rootMostTransactionNode = repoGetAncestorTransactionNode(repo, changedPath); const path = treeGetPath(rootMostTransactionNode); const queue = repoBuildTransactionQueue(repo, rootMostTransactionNode); repoRerunTransactionQueue(repo, queue, path); return path; } /** * Does all the work of rerunning transactions (as well as cleans up aborted * transactions and whatnot). * * @param queue - The queue of transactions to run. * @param path - The path the queue is for. */ function repoRerunTransactionQueue(repo, queue, path) { if (queue.length === 0) { return; // Nothing to do! } // Queue up the callbacks and fire them after cleaning up all of our // transaction state, since the callback could trigger more transactions or // sets. const callbacks = []; let events = []; // Ignore all of the sets we're going to re-run. const txnsToRerun = queue.filter(q => { return q.status === 0 /* TransactionStatus.RUN */; }); const setsToIgnore = txnsToRerun.map(q => { return q.currentWriteId; }); for (let i = 0; i < queue.length; i++) { const transaction = queue[i]; const relativePath = newRelativePath(path, transaction.path); let abortTransaction = false, abortReason; assert(relativePath !== null, 'rerunTransactionsUnderNode_: relativePath should not be null.'); if (transaction.status === 4 /* TransactionStatus.NEEDS_ABORT */) { abortTransaction = true; abortReason = transaction.abortReason; events = events.concat(syncTreeAckUserWrite(repo.serverSyncTree_, transaction.currentWriteId, true)); } else if (transaction.status === 0 /* TransactionStatus.RUN */) { if (transaction.retryCount >= MAX_TRANSACTION_RETRIES) { abortTransaction = true; abortReason = 'maxretry'; events = events.concat(syncTreeAckUserWrite(repo.serverSyncTree_, transaction.currentWriteId, true)); } else { // This code reruns a transaction const currentNode = repoGetLatestState(repo, transaction.path, setsToIgnore); transaction.currentInputSnapshot = currentNode; const newData = queue[i].update(currentNode.val()); if (newData !== undefined) { validateFirebaseData('transaction failed: Data returned ', newData, transaction.path); let newDataNode = nodeFromJSON(newData); const hasExplicitPriority = typeof newData === 'object' && newData != null && contains(newData, '.priority'); if (!hasExplicitPriority) { // Keep the old priority if there wasn't a priority explicitly specified. newDataNode = newDataNode.updatePriority(currentNode.getPriority()); } const oldWriteId = transaction.currentWriteId; const serverValues = repoGenerateServerValues(repo); const newNodeResolved = resolveDeferredValueSnapshot(newDataNode, currentNode, serverValues); transaction.currentOutputSnapshotRaw = newDataNode; transaction.currentOutputSnapshotResolved = newNodeResolved; transaction.currentWriteId = repoGetNextWriteId(repo); // Mutates setsToIgnore in place setsToIgnore.splice(setsToIgnore.indexOf(oldWriteId), 1); events = events.concat(syncTreeApplyUserOverwrite(repo.serverSyncTree_, transaction.path, newNodeResolved, transaction.currentWriteId, transaction.applyLocally)); events = events.concat(syncTreeAckUserWrite(repo.serverSyncTree_, oldWriteId, true)); } else { abortTransaction = true; abortReason = 'nodata'; events = events.concat(syncTreeAckUserWrite(repo.serverSyncTree_, transaction.currentWriteId, true)); } } } eventQueueRaiseEventsForChangedPath(repo.eventQueue_, path, events); events = []; if (abortTransaction) { // Abort. queue[i].status = 2 /* TransactionStatus.COMPLETED */; // Removing a listener can trigger pruning which can muck with // mergedData/visibleData (as it prunes data). So defer the unwatcher // until we're done. (function (unwatcher) { setTimeout(unwatcher, Math.floor(0)); })(queue[i].unwatcher); if (queue[i].onComplete) { if (abortReason === 'nodata') { callbacks.push(() => queue[i].onComplete(null, false, queue[i].currentInputSnapshot)); } else { callbacks.push(() => queue[i].onComplete(new Error(abortReason), false, null)); } } } } // Clean up completed transactions. repoPruneCompletedTransactionsBelowNode(repo, repo.transactionQueueTree_); // Now fire callbacks, now that we're in a good, known state. for (let i = 0; i < callbacks.length; i++) { exceptionGuard(callbacks[i]); } // Try to send the transaction result to the server. repoSendReadyTransactions(repo, repo.transactionQueueTree_); } /** * Returns the rootmost ancestor node of the specified path that has a pending * transaction on it, or just returns the node for the given path if there are * no pending transactions on any ancestor. * * @param path - The location to start at. * @returns The rootmost node with a transaction. */ function repoGetAncestorTransactionNode(repo, path) { let front; // Start at the root and walk deeper into the tree towards path until we // find a node with pending transactions. let transactionNode = repo.transactionQueueTree_; front = pathGetFront(path); while (front !== null && treeGetValue(transactionNode) === undefined) { transactionNode = treeSubTree(transactionNode, front); path = pathPopFront(path); front = pathGetFront(path); } return transactionNode; } /** * Builds the queue of all transactions at or below the specified * transactionNode. * * @param transactionNode * @returns The generated queue. */ function repoBuildTransactionQueue(repo, transactionNode) { // Walk any child transaction queues and aggregate them into a single queue. const transactionQueue = []; repoAggregateTransactionQueuesForNode(repo, transactionNode, transactionQueue); // Sort them by the order the transactions were created. transactionQueue.sort((a, b) => a.order - b.order); return transactionQueue; } function repoAggregateTransactionQueuesForNode(repo, node, queue) { const nodeQueue = treeGetValue(node); if (nodeQueue) { for (let i = 0; i < nodeQueue.length; i++) { queue.push(nodeQueue[i]); } } treeForEachChild(node, child => { repoAggregateTransactionQueuesForNode(repo, child, queue); }); } /** * Remove COMPLETED transactions at or below this node in the transactionQueueTree_. */ function repoPruneCompletedTransactionsBelowNode(repo, node) { const queue = treeGetValue(node); if (queue) { let to = 0; for (let from = 0; from < queue.length; from++) { if (queue[from].status !== 2 /* TransactionStatus.COMPLETED */) { queue[to] = queue[from]; to++; } } queue.length = to; treeSetValue(node, queue.length > 0 ? queue : undefined); } treeForEachChild(node, childNode => { repoPruneCompletedTransactionsBelowNode(repo, childNode); }); } /** * Aborts all transactions on ancestors or descendants of the specified path. * Called when doing a set() or update() since we consider them incompatible * with transactions. * * @param path - Path for which we want to abort related transactions. */ function repoAbortTransactions(repo, path) { const affectedPath = treeGetPath(repoGetAncestorTransactionNode(repo, path)); const transactionNode = treeSubTree(repo.transactionQueueTree_, path); treeForEachAncestor(transactionNode, (node) => { repoAbortTransactionsOnNode(repo, node); }); repoAbortTransactionsOnNode(repo, transactionNode); treeForEachDescendant(transactionNode, (node) => { repoAbortTransactionsOnNode(repo, node); }); return affectedPath; } /** * Abort transactions stored in this transaction queue node. * * @param node - Node to abort transactions for. */ function repoAbortTransactionsOnNode(repo, node) { const queue = treeGetValue(node); if (queue) { // Queue up the callbacks and fire them after cleaning up all of our // transaction state, since the callback could trigger more transactions // or sets. const callbacks = []; // Go through queue. Any already-sent transactions must be marked for // abort, while the unsent ones can be immediately aborted and removed. let events = []; let lastSent = -1; for (let i = 0; i < queue.length; i++) { if (queue[i].status === 3 /* TransactionStatus.SENT_NEEDS_ABORT */) ; else if (queue[i].status === 1 /* TransactionStatus.SENT */) { assert(lastSent === i - 1, 'All SENT items should be at beginning of queue.'); lastSent = i; // Mark transaction for abort when it comes back. queue[i].status = 3 /* TransactionStatus.SENT_NEEDS_ABORT */; queue[i].abortReason = 'set'; } else { assert(queue[i].status === 0 /* TransactionStatus.RUN */, 'Unexpected transaction status in abort'); // We can abort it immediately. queue[i].unwatcher(); events = events.concat(syncTreeAckUserWrite(repo.serverSyncTree_, queue[i].currentWriteId, true)); if (queue[i].onComplete) { callbacks.push(queue[i].onComplete.bind(null, new Error('set'), false, null)); } } } if (lastSent === -1) { // We're not waiting for any sent transactions. We can clear the queue. treeSetValue(node, undefined); } else { // Remove the transactions we aborted. queue.length = lastSent + 1; } // Now fire the callbacks. eventQueueRaiseEventsForChangedPath(repo.eventQueue_, treeGetPath(node), events); for (let i = 0; i < callbacks.length; i++) { exceptionGuard(callbacks[i]); } } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ function decodePath(pathString) { let pathStringDecoded = ''; const pieces = pathString.split('/'); for (let i = 0; i < pieces.length; i++) { if (pieces[i].length > 0) { let piece = pieces[i]; try { piece = decodeURIComponent(piece.replace(/\+/g, ' ')); } catch (e) { } pathStringDecoded += '/' + piece; } } return pathStringDecoded; } /** * @returns key value hash */ function decodeQuery(queryString) { const results = {}; if (queryString.charAt(0) === '?') { queryString = queryString.substring(1); } for (const segment of queryString.split('&')) { if (segment.length === 0) { continue; } const kv = segment.split('='); if (kv.length === 2) { results[decodeURIComponent(kv[0])] = decodeURIComponent(kv[1]); } else { warn(`Invalid query segment '${segment}' in query '${queryString}'`); } } return results; } const parseRepoInfo = function (dataURL, nodeAdmin) { const parsedUrl = parseDatabaseURL(dataURL), namespace = parsedUrl.namespace; if (parsedUrl.domain === 'firebase.com') { fatal(parsedUrl.host + ' is no longer supported. ' + 'Please use .firebaseio.com instead'); } // Catch common error of uninitialized namespace value. if ((!namespace || namespace === 'undefined') && parsedUrl.domain !== 'localhost') { fatal('Cannot parse Firebase url. Please use https://.firebaseio.com'); } if (!parsedUrl.secure) { warnIfPageIsSecure(); } const webSocketOnly = parsedUrl.scheme === 'ws' || parsedUrl.scheme === 'wss'; return { repoInfo: new RepoInfo(parsedUrl.host, parsedUrl.secure, namespace, webSocketOnly, nodeAdmin, /*persistenceKey=*/ '', /*includeNamespaceInQueryParams=*/ namespace !== parsedUrl.subdomain), path: new Path(parsedUrl.pathString) }; }; const parseDatabaseURL = function (dataURL) { // Default to empty strings in the event of a malformed string. let host = '', domain = '', subdomain = '', pathString = '', namespace = ''; // Always default to SSL, unless otherwise specified. let secure = true, scheme = 'https', port = 443; // Don't do any validation here. The caller is responsible for validating the result of parsing. if (typeof dataURL === 'string') { // Parse scheme. let colonInd = dataURL.indexOf('//'); if (colonInd >= 0) { scheme = dataURL.substring(0, colonInd - 1); dataURL = dataURL.substring(colonInd + 2); } // Parse host, path, and query string. let slashInd = dataURL.indexOf('/'); if (slashInd === -1) { slashInd = dataURL.length; } let questionMarkInd = dataURL.indexOf('?'); if (questionMarkInd === -1) { questionMarkInd = dataURL.length; } host = dataURL.substring(0, Math.min(slashInd, questionMarkInd)); if (slashInd < questionMarkInd) { // For pathString, questionMarkInd will always come after slashInd pathString = decodePath(dataURL.substring(slashInd, questionMarkInd)); } const queryParams = decodeQuery(dataURL.substring(Math.min(dataURL.length, questionMarkInd))); // If we have a port, use scheme for determining if it's secure. colonInd = host.indexOf(':'); if (colonInd >= 0) { secure = scheme === 'https' || scheme === 'wss'; port = parseInt(host.substring(colonInd + 1), 10); } else { colonInd = host.length; } const hostWithoutPort = host.slice(0, colonInd); if (hostWithoutPort.toLowerCase() === 'localhost') { domain = 'localhost'; } else if (hostWithoutPort.split('.').length <= 2) { domain = hostWithoutPort; } else { // Interpret the subdomain of a 3 or more component URL as the namespace name. const dotInd = host.indexOf('.'); subdomain = host.substring(0, dotInd).toLowerCase(); domain = host.substring(dotInd + 1); // Normalize namespaces to lowercase to share storage / connection. namespace = subdomain; } // Always treat the value of the `ns` as the namespace name if it is present. if ('ns' in queryParams) { namespace = queryParams['ns']; } } return { host, port, domain, subdomain, secure, scheme, pathString, namespace }; }; /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ // Modeled after base64 web-safe chars, but ordered by ASCII. const PUSH_CHARS = '-0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ_abcdefghijklmnopqrstuvwxyz'; /** * Fancy ID generator that creates 20-character string identifiers with the * following properties: * * 1. They're based on timestamp so that they sort *after* any existing ids. * 2. They contain 72-bits of random data after the timestamp so that IDs won't * collide with other clients' IDs. * 3. They sort *lexicographically* (so the timestamp is converted to characters * that will sort properly). * 4. They're monotonically increasing. Even if you generate more than one in * the same timestamp, the latter ones will sort after the former ones. We do * this by using the previous random bits but "incrementing" them by 1 (only * in the case of a timestamp collision). */ const nextPushId = (function () { // Timestamp of last push, used to prevent local collisions if you push twice // in one ms. let lastPushTime = 0; // We generate 72-bits of randomness which get turned into 12 characters and // appended to the timestamp to prevent collisions with other clients. We // store the last characters we generated because in the event of a collision, // we'll use those same characters except "incremented" by one. const lastRandChars = []; return function (now) { const duplicateTime = now === lastPushTime; lastPushTime = now; let i; const timeStampChars = new Array(8); for (i = 7; i >= 0; i--) { timeStampChars[i] = PUSH_CHARS.charAt(now % 64); // NOTE: Can't use << here because javascript will convert to int and lose // the upper bits. now = Math.floor(now / 64); } assert(now === 0, 'Cannot push at time == 0'); let id = timeStampChars.join(''); if (!duplicateTime) { for (i = 0; i < 12; i++) { lastRandChars[i] = Math.floor(Math.random() * 64); } } else { // If the timestamp hasn't changed since last push, use the same random // number, except incremented by 1. for (i = 11; i >= 0 && lastRandChars[i] === 63; i--) { lastRandChars[i] = 0; } lastRandChars[i]++; } for (i = 0; i < 12; i++) { id += PUSH_CHARS.charAt(lastRandChars[i]); } assert(id.length === 20, 'nextPushId: Length should be 20.'); return id; }; })(); /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Encapsulates the data needed to raise an event */ class DataEvent { /** * @param eventType - One of: value, child_added, child_changed, child_moved, child_removed * @param eventRegistration - The function to call to with the event data. User provided * @param snapshot - The data backing the event * @param prevName - Optional, the name of the previous child for child_* events. */ constructor(eventType, eventRegistration, snapshot, prevName) { this.eventType = eventType; this.eventRegistration = eventRegistration; this.snapshot = snapshot; this.prevName = prevName; } getPath() { const ref = this.snapshot.ref; if (this.eventType === 'value') { return ref._path; } else { return ref.parent._path; } } getEventType() { return this.eventType; } getEventRunner() { return this.eventRegistration.getEventRunner(this); } toString() { return (this.getPath().toString() + ':' + this.eventType + ':' + stringify(this.snapshot.exportVal())); } } class CancelEvent { constructor(eventRegistration, error, path) { this.eventRegistration = eventRegistration; this.error = error; this.path = path; } getPath() { return this.path; } getEventType() { return 'cancel'; } getEventRunner() { return this.eventRegistration.getEventRunner(this); } toString() { return this.path.toString() + ':cancel'; } } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * A wrapper class that converts events from the database@exp SDK to the legacy * Database SDK. Events are not converted directly as event registration relies * on reference comparison of the original user callback (see `matches()`) and * relies on equality of the legacy SDK's `context` object. */ class CallbackContext { constructor(snapshotCallback, cancelCallback) { this.snapshotCallback = snapshotCallback; this.cancelCallback = cancelCallback; } onValue(expDataSnapshot, previousChildName) { this.snapshotCallback.call(null, expDataSnapshot, previousChildName); } onCancel(error) { assert(this.hasCancelCallback, 'Raising a cancel event on a listener with no cancel callback'); return this.cancelCallback.call(null, error); } get hasCancelCallback() { return !!this.cancelCallback; } matches(other) { return (this.snapshotCallback === other.snapshotCallback || (this.snapshotCallback.userCallback !== undefined && this.snapshotCallback.userCallback === other.snapshotCallback.userCallback && this.snapshotCallback.context === other.snapshotCallback.context)); } } /** * @license * Copyright 2021 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * The `onDisconnect` class allows you to write or clear data when your client * disconnects from the Database server. These updates occur whether your * client disconnects cleanly or not, so you can rely on them to clean up data * even if a connection is dropped or a client crashes. * * The `onDisconnect` class is most commonly used to manage presence in * applications where it is useful to detect how many clients are connected and * when other clients disconnect. See * {@link https://firebase.google.com/docs/database/web/offline-capabilities | Enabling Offline Capabilities in JavaScript} * for more information. * * To avoid problems when a connection is dropped before the requests can be * transferred to the Database server, these functions should be called before * writing any data. * * Note that `onDisconnect` operations are only triggered once. If you want an * operation to occur each time a disconnect occurs, you'll need to re-establish * the `onDisconnect` operations each time you reconnect. */ class OnDisconnect { /** @hideconstructor */ constructor(_repo, _path) { this._repo = _repo; this._path = _path; } /** * Cancels all previously queued `onDisconnect()` set or update events for this * location and all children. * * If a write has been queued for this location via a `set()` or `update()` at a * parent location, the write at this location will be canceled, though writes * to sibling locations will still occur. * * @returns Resolves when synchronization to the server is complete. */ cancel() { const deferred = new Deferred(); repoOnDisconnectCancel(this._repo, this._path, deferred.wrapCallback(() => { })); return deferred.promise; } /** * Ensures the data at this location is deleted when the client is disconnected * (due to closing the browser, navigating to a new page, or network issues). * * @returns Resolves when synchronization to the server is complete. */ remove() { validateWritablePath('OnDisconnect.remove', this._path); const deferred = new Deferred(); repoOnDisconnectSet(this._repo, this._path, null, deferred.wrapCallback(() => { })); return deferred.promise; } /** * Ensures the data at this location is set to the specified value when the * client is disconnected (due to closing the browser, navigating to a new page, * or network issues). * * `set()` is especially useful for implementing "presence" systems, where a * value should be changed or cleared when a user disconnects so that they * appear "offline" to other users. See * {@link https://firebase.google.com/docs/database/web/offline-capabilities | Enabling Offline Capabilities in JavaScript} * for more information. * * Note that `onDisconnect` operations are only triggered once. If you want an * operation to occur each time a disconnect occurs, you'll need to re-establish * the `onDisconnect` operations each time. * * @param value - The value to be written to this location on disconnect (can * be an object, array, string, number, boolean, or null). * @returns Resolves when synchronization to the Database is complete. */ set(value) { validateWritablePath('OnDisconnect.set', this._path); validateFirebaseDataArg('OnDisconnect.set', value, this._path, false); const deferred = new Deferred(); repoOnDisconnectSet(this._repo, this._path, value, deferred.wrapCallback(() => { })); return deferred.promise; } /** * Ensures the data at this location is set to the specified value and priority * when the client is disconnected (due to closing the browser, navigating to a * new page, or network issues). * * @param value - The value to be written to this location on disconnect (can * be an object, array, string, number, boolean, or null). * @param priority - The priority to be written (string, number, or null). * @returns Resolves when synchronization to the Database is complete. */ setWithPriority(value, priority) { validateWritablePath('OnDisconnect.setWithPriority', this._path); validateFirebaseDataArg('OnDisconnect.setWithPriority', value, this._path, false); validatePriority('OnDisconnect.setWithPriority', priority, false); const deferred = new Deferred(); repoOnDisconnectSetWithPriority(this._repo, this._path, value, priority, deferred.wrapCallback(() => { })); return deferred.promise; } /** * Writes multiple values at this location when the client is disconnected (due * to closing the browser, navigating to a new page, or network issues). * * The `values` argument contains multiple property-value pairs that will be * written to the Database together. Each child property can either be a simple * property (for example, "name") or a relative path (for example, "name/first") * from the current location to the data to update. * * As opposed to the `set()` method, `update()` can be use to selectively update * only the referenced properties at the current location (instead of replacing * all the child properties at the current location). * * @param values - Object containing multiple values. * @returns Resolves when synchronization to the Database is complete. */ update(values) { validateWritablePath('OnDisconnect.update', this._path); validateFirebaseMergeDataArg('OnDisconnect.update', values, this._path, false); const deferred = new Deferred(); repoOnDisconnectUpdate(this._repo, this._path, values, deferred.wrapCallback(() => { })); return deferred.promise; } } /** * @license * Copyright 2020 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * @internal */ class QueryImpl { /** * @hideconstructor */ constructor(_repo, _path, _queryParams, _orderByCalled) { this._repo = _repo; this._path = _path; this._queryParams = _queryParams; this._orderByCalled = _orderByCalled; } get key() { if (pathIsEmpty(this._path)) { return null; } else { return pathGetBack(this._path); } } get ref() { return new ReferenceImpl(this._repo, this._path); } get _queryIdentifier() { const obj = queryParamsGetQueryObject(this._queryParams); const id = ObjectToUniqueKey(obj); return id === '{}' ? 'default' : id; } /** * An object representation of the query parameters used by this Query. */ get _queryObject() { return queryParamsGetQueryObject(this._queryParams); } isEqual(other) { other = getModularInstance(other); if (!(other instanceof QueryImpl)) { return false; } const sameRepo = this._repo === other._repo; const samePath = pathEquals(this._path, other._path); const sameQueryIdentifier = this._queryIdentifier === other._queryIdentifier; return sameRepo && samePath && sameQueryIdentifier; } toJSON() { return this.toString(); } toString() { return this._repo.toString() + pathToUrlEncodedString(this._path); } } /** * Validates that no other order by call has been made */ function validateNoPreviousOrderByCall(query, fnName) { if (query._orderByCalled === true) { throw new Error(fnName + ": You can't combine multiple orderBy calls."); } } /** * Validates start/end values for queries. */ function validateQueryEndpoints(params) { let startNode = null; let endNode = null; if (params.hasStart()) { startNode = params.getIndexStartValue(); } if (params.hasEnd()) { endNode = params.getIndexEndValue(); } if (params.getIndex() === KEY_INDEX) { const tooManyArgsError = 'Query: When ordering by key, you may only pass one argument to ' + 'startAt(), endAt(), or equalTo().'; const wrongArgTypeError = 'Query: When ordering by key, the argument passed to startAt(), startAfter(), ' + 'endAt(), endBefore(), or equalTo() must be a string.'; if (params.hasStart()) { const startName = params.getIndexStartName(); if (startName !== MIN_NAME) { throw new Error(tooManyArgsError); } else if (typeof startNode !== 'string') { throw new Error(wrongArgTypeError); } } if (params.hasEnd()) { const endName = params.getIndexEndName(); if (endName !== MAX_NAME) { throw new Error(tooManyArgsError); } else if (typeof endNode !== 'string') { throw new Error(wrongArgTypeError); } } } else if (params.getIndex() === PRIORITY_INDEX) { if ((startNode != null && !isValidPriority(startNode)) || (endNode != null && !isValidPriority(endNode))) { throw new Error('Query: When ordering by priority, the first argument passed to startAt(), ' + 'startAfter() endAt(), endBefore(), or equalTo() must be a valid priority value ' + '(null, a number, or a string).'); } } else { assert(params.getIndex() instanceof PathIndex || params.getIndex() === VALUE_INDEX, 'unknown index type.'); if ((startNode != null && typeof startNode === 'object') || (endNode != null && typeof endNode === 'object')) { throw new Error('Query: First argument passed to startAt(), startAfter(), endAt(), endBefore(), or ' + 'equalTo() cannot be an object.'); } } } /** * Validates that limit* has been called with the correct combination of parameters */ function validateLimit(params) { if (params.hasStart() && params.hasEnd() && params.hasLimit() && !params.hasAnchoredLimit()) { throw new Error("Query: Can't combine startAt(), startAfter(), endAt(), endBefore(), and limit(). Use " + 'limitToFirst() or limitToLast() instead.'); } } /** * @internal */ class ReferenceImpl extends QueryImpl { /** @hideconstructor */ constructor(repo, path) { super(repo, path, new QueryParams(), false); } get parent() { const parentPath = pathParent(this._path); return parentPath === null ? null : new ReferenceImpl(this._repo, parentPath); } get root() { let ref = this; while (ref.parent !== null) { ref = ref.parent; } return ref; } } /** * A `DataSnapshot` contains data from a Database location. * * Any time you read data from the Database, you receive the data as a * `DataSnapshot`. A `DataSnapshot` is passed to the event callbacks you attach * with `on()` or `once()`. You can extract the contents of the snapshot as a * JavaScript object by calling the `val()` method. Alternatively, you can * traverse into the snapshot by calling `child()` to return child snapshots * (which you could then call `val()` on). * * A `DataSnapshot` is an efficiently generated, immutable copy of the data at * a Database location. It cannot be modified and will never change (to modify * data, you always call the `set()` method on a `Reference` directly). */ class DataSnapshot { /** * @param _node - A SnapshotNode to wrap. * @param ref - The location this snapshot came from. * @param _index - The iteration order for this snapshot * @hideconstructor */ constructor(_node, /** * The location of this DataSnapshot. */ ref, _index) { this._node = _node; this.ref = ref; this._index = _index; } /** * Gets the priority value of the data in this `DataSnapshot`. * * Applications need not use priority but can order collections by * ordinary properties (see * {@link https://firebase.google.com/docs/database/web/lists-of-data#sorting_and_filtering_data |Sorting and filtering data} * ). */ get priority() { // typecast here because we never return deferred values or internal priorities (MAX_PRIORITY) return this._node.getPriority().val(); } /** * The key (last part of the path) of the location of this `DataSnapshot`. * * The last token in a Database location is considered its key. For example, * "ada" is the key for the /users/ada/ node. Accessing the key on any * `DataSnapshot` will return the key for the location that generated it. * However, accessing the key on the root URL of a Database will return * `null`. */ get key() { return this.ref.key; } /** Returns the number of child properties of this `DataSnapshot`. */ get size() { return this._node.numChildren(); } /** * Gets another `DataSnapshot` for the location at the specified relative path. * * Passing a relative path to the `child()` method of a DataSnapshot returns * another `DataSnapshot` for the location at the specified relative path. The * relative path can either be a simple child name (for example, "ada") or a * deeper, slash-separated path (for example, "ada/name/first"). If the child * location has no data, an empty `DataSnapshot` (that is, a `DataSnapshot` * whose value is `null`) is returned. * * @param path - A relative path to the location of child data. */ child(path) { const childPath = new Path(path); const childRef = child(this.ref, path); return new DataSnapshot(this._node.getChild(childPath), childRef, PRIORITY_INDEX); } /** * Returns true if this `DataSnapshot` contains any data. It is slightly more * efficient than using `snapshot.val() !== null`. */ exists() { return !this._node.isEmpty(); } /** * Exports the entire contents of the DataSnapshot as a JavaScript object. * * The `exportVal()` method is similar to `val()`, except priority information * is included (if available), making it suitable for backing up your data. * * @returns The DataSnapshot's contents as a JavaScript value (Object, * Array, string, number, boolean, or `null`). */ // eslint-disable-next-line @typescript-eslint/no-explicit-any exportVal() { return this._node.val(true); } /** * Enumerates the top-level children in the `DataSnapshot`. * * Because of the way JavaScript objects work, the ordering of data in the * JavaScript object returned by `val()` is not guaranteed to match the * ordering on the server nor the ordering of `onChildAdded()` events. That is * where `forEach()` comes in handy. It guarantees the children of a * `DataSnapshot` will be iterated in their query order. * * If no explicit `orderBy*()` method is used, results are returned * ordered by key (unless priorities are used, in which case, results are * returned by priority). * * @param action - A function that will be called for each child DataSnapshot. * The callback can return true to cancel further enumeration. * @returns true if enumeration was canceled due to your callback returning * true. */ forEach(action) { if (this._node.isLeafNode()) { return false; } const childrenNode = this._node; // Sanitize the return value to a boolean. ChildrenNode.forEachChild has a weird return type... return !!childrenNode.forEachChild(this._index, (key, node) => { return action(new DataSnapshot(node, child(this.ref, key), PRIORITY_INDEX)); }); } /** * Returns true if the specified child path has (non-null) data. * * @param path - A relative path to the location of a potential child. * @returns `true` if data exists at the specified child path; else * `false`. */ hasChild(path) { const childPath = new Path(path); return !this._node.getChild(childPath).isEmpty(); } /** * Returns whether or not the `DataSnapshot` has any non-`null` child * properties. * * You can use `hasChildren()` to determine if a `DataSnapshot` has any * children. If it does, you can enumerate them using `forEach()`. If it * doesn't, then either this snapshot contains a primitive value (which can be * retrieved with `val()`) or it is empty (in which case, `val()` will return * `null`). * * @returns true if this snapshot has any children; else false. */ hasChildren() { if (this._node.isLeafNode()) { return false; } else { return !this._node.isEmpty(); } } /** * Returns a JSON-serializable representation of this object. */ toJSON() { return this.exportVal(); } /** * Extracts a JavaScript value from a `DataSnapshot`. * * Depending on the data in a `DataSnapshot`, the `val()` method may return a * scalar type (string, number, or boolean), an array, or an object. It may * also return null, indicating that the `DataSnapshot` is empty (contains no * data). * * @returns The DataSnapshot's contents as a JavaScript value (Object, * Array, string, number, boolean, or `null`). */ // eslint-disable-next-line @typescript-eslint/no-explicit-any val() { return this._node.val(); } } /** * * Returns a `Reference` representing the location in the Database * corresponding to the provided path. If no path is provided, the `Reference` * will point to the root of the Database. * * @param db - The database instance to obtain a reference for. * @param path - Optional path representing the location the returned * `Reference` will point. If not provided, the returned `Reference` will * point to the root of the Database. * @returns If a path is provided, a `Reference` * pointing to the provided path. Otherwise, a `Reference` pointing to the * root of the Database. */ function ref(db, path) { db = getModularInstance(db); db._checkNotDeleted('ref'); return path !== undefined ? child(db._root, path) : db._root; } /** * Returns a `Reference` representing the location in the Database * corresponding to the provided Firebase URL. * * An exception is thrown if the URL is not a valid Firebase Database URL or it * has a different domain than the current `Database` instance. * * Note that all query parameters (`orderBy`, `limitToLast`, etc.) are ignored * and are not applied to the returned `Reference`. * * @param db - The database instance to obtain a reference for. * @param url - The Firebase URL at which the returned `Reference` will * point. * @returns A `Reference` pointing to the provided * Firebase URL. */ function refFromURL(db, url) { db = getModularInstance(db); db._checkNotDeleted('refFromURL'); const parsedURL = parseRepoInfo(url, db._repo.repoInfo_.nodeAdmin); validateUrl('refFromURL', parsedURL); const repoInfo = parsedURL.repoInfo; if (!db._repo.repoInfo_.isCustomHost() && repoInfo.host !== db._repo.repoInfo_.host) { fatal('refFromURL' + ': Host name does not match the current database: ' + '(found ' + repoInfo.host + ' but expected ' + db._repo.repoInfo_.host + ')'); } return ref(db, parsedURL.path.toString()); } /** * Gets a `Reference` for the location at the specified relative path. * * The relative path can either be a simple child name (for example, "ada") or * a deeper slash-separated path (for example, "ada/name/first"). * * @param parent - The parent location. * @param path - A relative path from this location to the desired child * location. * @returns The specified child location. */ function child(parent, path) { parent = getModularInstance(parent); if (pathGetFront(parent._path) === null) { validateRootPathString('child', 'path', path, false); } else { validatePathString('child', 'path', path, false); } return new ReferenceImpl(parent._repo, pathChild(parent._path, path)); } /** * Returns an `OnDisconnect` object - see * {@link https://firebase.google.com/docs/database/web/offline-capabilities | Enabling Offline Capabilities in JavaScript} * for more information on how to use it. * * @param ref - The reference to add OnDisconnect triggers for. */ function onDisconnect(ref) { ref = getModularInstance(ref); return new OnDisconnect(ref._repo, ref._path); } /** * Generates a new child location using a unique key and returns its * `Reference`. * * This is the most common pattern for adding data to a collection of items. * * If you provide a value to `push()`, the value is written to the * generated location. If you don't pass a value, nothing is written to the * database and the child remains empty (but you can use the `Reference` * elsewhere). * * The unique keys generated by `push()` are ordered by the current time, so the * resulting list of items is chronologically sorted. The keys are also * designed to be unguessable (they contain 72 random bits of entropy). * * See {@link https://firebase.google.com/docs/database/web/lists-of-data#append_to_a_list_of_data | Append to a list of data}. * See {@link https://firebase.googleblog.com/2015/02/the-2120-ways-to-ensure-unique_68.html | The 2^120 Ways to Ensure Unique Identifiers}. * * @param parent - The parent location. * @param value - Optional value to be written at the generated location. * @returns Combined `Promise` and `Reference`; resolves when write is complete, * but can be used immediately as the `Reference` to the child location. */ function push(parent, value) { parent = getModularInstance(parent); validateWritablePath('push', parent._path); validateFirebaseDataArg('push', value, parent._path, true); const now = repoServerTime(parent._repo); const name = nextPushId(now); // push() returns a ThennableReference whose promise is fulfilled with a // regular Reference. We use child() to create handles to two different // references. The first is turned into a ThennableReference below by adding // then() and catch() methods and is used as the return value of push(). The // second remains a regular Reference and is used as the fulfilled value of // the first ThennableReference. const thennablePushRef = child(parent, name); const pushRef = child(parent, name); let promise; if (value != null) { promise = set(pushRef, value).then(() => pushRef); } else { promise = Promise.resolve(pushRef); } thennablePushRef.then = promise.then.bind(promise); thennablePushRef.catch = promise.then.bind(promise, undefined); return thennablePushRef; } /** * Removes the data at this Database location. * * Any data at child locations will also be deleted. * * The effect of the remove will be visible immediately and the corresponding * event 'value' will be triggered. Synchronization of the remove to the * Firebase servers will also be started, and the returned Promise will resolve * when complete. If provided, the onComplete callback will be called * asynchronously after synchronization has finished. * * @param ref - The location to remove. * @returns Resolves when remove on server is complete. */ function remove(ref) { validateWritablePath('remove', ref._path); return set(ref, null); } /** * Writes data to this Database location. * * This will overwrite any data at this location and all child locations. * * The effect of the write will be visible immediately, and the corresponding * events ("value", "child_added", etc.) will be triggered. Synchronization of * the data to the Firebase servers will also be started, and the returned * Promise will resolve when complete. If provided, the `onComplete` callback * will be called asynchronously after synchronization has finished. * * Passing `null` for the new value is equivalent to calling `remove()`; namely, * all data at this location and all child locations will be deleted. * * `set()` will remove any priority stored at this location, so if priority is * meant to be preserved, you need to use `setWithPriority()` instead. * * Note that modifying data with `set()` will cancel any pending transactions * at that location, so extreme care should be taken if mixing `set()` and * `transaction()` to modify the same data. * * A single `set()` will generate a single "value" event at the location where * the `set()` was performed. * * @param ref - The location to write to. * @param value - The value to be written (string, number, boolean, object, * array, or null). * @returns Resolves when write to server is complete. */ function set(ref, value) { ref = getModularInstance(ref); validateWritablePath('set', ref._path); validateFirebaseDataArg('set', value, ref._path, false); const deferred = new Deferred(); repoSetWithPriority(ref._repo, ref._path, value, /*priority=*/ null, deferred.wrapCallback(() => { })); return deferred.promise; } /** * Sets a priority for the data at this Database location. * * Applications need not use priority but can order collections by * ordinary properties (see * {@link https://firebase.google.com/docs/database/web/lists-of-data#sorting_and_filtering_data | Sorting and filtering data} * ). * * @param ref - The location to write to. * @param priority - The priority to be written (string, number, or null). * @returns Resolves when write to server is complete. */ function setPriority(ref, priority) { ref = getModularInstance(ref); validateWritablePath('setPriority', ref._path); validatePriority('setPriority', priority, false); const deferred = new Deferred(); repoSetWithPriority(ref._repo, pathChild(ref._path, '.priority'), priority, null, deferred.wrapCallback(() => { })); return deferred.promise; } /** * Writes data the Database location. Like `set()` but also specifies the * priority for that data. * * Applications need not use priority but can order collections by * ordinary properties (see * {@link https://firebase.google.com/docs/database/web/lists-of-data#sorting_and_filtering_data | Sorting and filtering data} * ). * * @param ref - The location to write to. * @param value - The value to be written (string, number, boolean, object, * array, or null). * @param priority - The priority to be written (string, number, or null). * @returns Resolves when write to server is complete. */ function setWithPriority(ref, value, priority) { validateWritablePath('setWithPriority', ref._path); validateFirebaseDataArg('setWithPriority', value, ref._path, false); validatePriority('setWithPriority', priority, false); if (ref.key === '.length' || ref.key === '.keys') { throw 'setWithPriority failed: ' + ref.key + ' is a read-only object.'; } const deferred = new Deferred(); repoSetWithPriority(ref._repo, ref._path, value, priority, deferred.wrapCallback(() => { })); return deferred.promise; } /** * Writes multiple values to the Database at once. * * The `values` argument contains multiple property-value pairs that will be * written to the Database together. Each child property can either be a simple * property (for example, "name") or a relative path (for example, * "name/first") from the current location to the data to update. * * As opposed to the `set()` method, `update()` can be use to selectively update * only the referenced properties at the current location (instead of replacing * all the child properties at the current location). * * The effect of the write will be visible immediately, and the corresponding * events ('value', 'child_added', etc.) will be triggered. Synchronization of * the data to the Firebase servers will also be started, and the returned * Promise will resolve when complete. If provided, the `onComplete` callback * will be called asynchronously after synchronization has finished. * * A single `update()` will generate a single "value" event at the location * where the `update()` was performed, regardless of how many children were * modified. * * Note that modifying data with `update()` will cancel any pending * transactions at that location, so extreme care should be taken if mixing * `update()` and `transaction()` to modify the same data. * * Passing `null` to `update()` will remove the data at this location. * * See * {@link https://firebase.googleblog.com/2015/09/introducing-multi-location-updates-and_86.html | Introducing multi-location updates and more}. * * @param ref - The location to write to. * @param values - Object containing multiple values. * @returns Resolves when update on server is complete. */ function update(ref, values) { validateFirebaseMergeDataArg('update', values, ref._path, false); const deferred = new Deferred(); repoUpdate(ref._repo, ref._path, values, deferred.wrapCallback(() => { })); return deferred.promise; } /** * Gets the most up-to-date result for this query. * * @param query - The query to run. * @returns A `Promise` which resolves to the resulting DataSnapshot if a value is * available, or rejects if the client is unable to return a value (e.g., if the * server is unreachable and there is nothing cached). */ function get(query) { query = getModularInstance(query); const callbackContext = new CallbackContext(() => { }); const container = new ValueEventRegistration(callbackContext); return repoGetValue(query._repo, query, container).then(node => { return new DataSnapshot(node, new ReferenceImpl(query._repo, query._path), query._queryParams.getIndex()); }); } /** * Represents registration for 'value' events. */ class ValueEventRegistration { constructor(callbackContext) { this.callbackContext = callbackContext; } respondsTo(eventType) { return eventType === 'value'; } createEvent(change, query) { const index = query._queryParams.getIndex(); return new DataEvent('value', this, new DataSnapshot(change.snapshotNode, new ReferenceImpl(query._repo, query._path), index)); } getEventRunner(eventData) { if (eventData.getEventType() === 'cancel') { return () => this.callbackContext.onCancel(eventData.error); } else { return () => this.callbackContext.onValue(eventData.snapshot, null); } } createCancelEvent(error, path) { if (this.callbackContext.hasCancelCallback) { return new CancelEvent(this, error, path); } else { return null; } } matches(other) { if (!(other instanceof ValueEventRegistration)) { return false; } else if (!other.callbackContext || !this.callbackContext) { // If no callback specified, we consider it to match any callback. return true; } else { return other.callbackContext.matches(this.callbackContext); } } hasAnyCallback() { return this.callbackContext !== null; } } /** * Represents the registration of a child_x event. */ class ChildEventRegistration { constructor(eventType, callbackContext) { this.eventType = eventType; this.callbackContext = callbackContext; } respondsTo(eventType) { let eventToCheck = eventType === 'children_added' ? 'child_added' : eventType; eventToCheck = eventToCheck === 'children_removed' ? 'child_removed' : eventToCheck; return this.eventType === eventToCheck; } createCancelEvent(error, path) { if (this.callbackContext.hasCancelCallback) { return new CancelEvent(this, error, path); } else { return null; } } createEvent(change, query) { assert(change.childName != null, 'Child events should have a childName.'); const childRef = child(new ReferenceImpl(query._repo, query._path), change.childName); const index = query._queryParams.getIndex(); return new DataEvent(change.type, this, new DataSnapshot(change.snapshotNode, childRef, index), change.prevName); } getEventRunner(eventData) { if (eventData.getEventType() === 'cancel') { return () => this.callbackContext.onCancel(eventData.error); } else { return () => this.callbackContext.onValue(eventData.snapshot, eventData.prevName); } } matches(other) { if (other instanceof ChildEventRegistration) { return (this.eventType === other.eventType && (!this.callbackContext || !other.callbackContext || this.callbackContext.matches(other.callbackContext))); } return false; } hasAnyCallback() { return !!this.callbackContext; } } function addEventListener(query, eventType, callback, cancelCallbackOrListenOptions, options) { let cancelCallback; if (typeof cancelCallbackOrListenOptions === 'object') { cancelCallback = undefined; options = cancelCallbackOrListenOptions; } if (typeof cancelCallbackOrListenOptions === 'function') { cancelCallback = cancelCallbackOrListenOptions; } if (options && options.onlyOnce) { const userCallback = callback; const onceCallback = (dataSnapshot, previousChildName) => { repoRemoveEventCallbackForQuery(query._repo, query, container); userCallback(dataSnapshot, previousChildName); }; onceCallback.userCallback = callback.userCallback; onceCallback.context = callback.context; callback = onceCallback; } const callbackContext = new CallbackContext(callback, cancelCallback || undefined); const container = eventType === 'value' ? new ValueEventRegistration(callbackContext) : new ChildEventRegistration(eventType, callbackContext); repoAddEventCallbackForQuery(query._repo, query, container); return () => repoRemoveEventCallbackForQuery(query._repo, query, container); } function onValue(query, callback, cancelCallbackOrListenOptions, options) { return addEventListener(query, 'value', callback, cancelCallbackOrListenOptions, options); } function onChildAdded(query, callback, cancelCallbackOrListenOptions, options) { return addEventListener(query, 'child_added', callback, cancelCallbackOrListenOptions, options); } function onChildChanged(query, callback, cancelCallbackOrListenOptions, options) { return addEventListener(query, 'child_changed', callback, cancelCallbackOrListenOptions, options); } function onChildMoved(query, callback, cancelCallbackOrListenOptions, options) { return addEventListener(query, 'child_moved', callback, cancelCallbackOrListenOptions, options); } function onChildRemoved(query, callback, cancelCallbackOrListenOptions, options) { return addEventListener(query, 'child_removed', callback, cancelCallbackOrListenOptions, options); } /** * Detaches a callback previously attached with the corresponding `on*()` (`onValue`, `onChildAdded`) listener. * Note: This is not the recommended way to remove a listener. Instead, please use the returned callback function from * the respective `on*` callbacks. * * Detach a callback previously attached with `on*()`. Calling `off()` on a parent listener * will not automatically remove listeners registered on child nodes, `off()` * must also be called on any child listeners to remove the callback. * * If a callback is not specified, all callbacks for the specified eventType * will be removed. Similarly, if no eventType is specified, all callbacks * for the `Reference` will be removed. * * Individual listeners can also be removed by invoking their unsubscribe * callbacks. * * @param query - The query that the listener was registered with. * @param eventType - One of the following strings: "value", "child_added", * "child_changed", "child_removed", or "child_moved." If omitted, all callbacks * for the `Reference` will be removed. * @param callback - The callback function that was passed to `on()` or * `undefined` to remove all callbacks. */ function off(query, eventType, callback) { let container = null; const expCallback = callback ? new CallbackContext(callback) : null; if (eventType === 'value') { container = new ValueEventRegistration(expCallback); } else if (eventType) { container = new ChildEventRegistration(eventType, expCallback); } repoRemoveEventCallbackForQuery(query._repo, query, container); } /** * A `QueryConstraint` is used to narrow the set of documents returned by a * Database query. `QueryConstraint`s are created by invoking {@link endAt}, * {@link endBefore}, {@link startAt}, {@link startAfter}, {@link * limitToFirst}, {@link limitToLast}, {@link orderByChild}, * {@link orderByChild}, {@link orderByKey} , {@link orderByPriority} , * {@link orderByValue} or {@link equalTo} and * can then be passed to {@link query} to create a new query instance that * also contains this `QueryConstraint`. */ class QueryConstraint { } class QueryEndAtConstraint extends QueryConstraint { constructor(_value, _key) { super(); this._value = _value; this._key = _key; } _apply(query) { validateFirebaseDataArg('endAt', this._value, query._path, true); const newParams = queryParamsEndAt(query._queryParams, this._value, this._key); validateLimit(newParams); validateQueryEndpoints(newParams); if (query._queryParams.hasEnd()) { throw new Error('endAt: Starting point was already set (by another call to endAt, ' + 'endBefore or equalTo).'); } return new QueryImpl(query._repo, query._path, newParams, query._orderByCalled); } } /** * Creates a `QueryConstraint` with the specified ending point. * * Using `startAt()`, `startAfter()`, `endBefore()`, `endAt()` and `equalTo()` * allows you to choose arbitrary starting and ending points for your queries. * * The ending point is inclusive, so children with exactly the specified value * will be included in the query. The optional key argument can be used to * further limit the range of the query. If it is specified, then children that * have exactly the specified value must also have a key name less than or equal * to the specified key. * * You can read more about `endAt()` in * {@link https://firebase.google.com/docs/database/web/lists-of-data#filtering_data | Filtering data}. * * @param value - The value to end at. The argument type depends on which * `orderBy*()` function was used in this query. Specify a value that matches * the `orderBy*()` type. When used in combination with `orderByKey()`, the * value must be a string. * @param key - The child key to end at, among the children with the previously * specified priority. This argument is only allowed if ordering by child, * value, or priority. */ function endAt(value, key) { validateKey('endAt', 'key', key, true); return new QueryEndAtConstraint(value, key); } class QueryEndBeforeConstraint extends QueryConstraint { constructor(_value, _key) { super(); this._value = _value; this._key = _key; } _apply(query) { validateFirebaseDataArg('endBefore', this._value, query._path, false); const newParams = queryParamsEndBefore(query._queryParams, this._value, this._key); validateLimit(newParams); validateQueryEndpoints(newParams); if (query._queryParams.hasEnd()) { throw new Error('endBefore: Starting point was already set (by another call to endAt, ' + 'endBefore or equalTo).'); } return new QueryImpl(query._repo, query._path, newParams, query._orderByCalled); } } /** * Creates a `QueryConstraint` with the specified ending point (exclusive). * * Using `startAt()`, `startAfter()`, `endBefore()`, `endAt()` and `equalTo()` * allows you to choose arbitrary starting and ending points for your queries. * * The ending point is exclusive. If only a value is provided, children * with a value less than the specified value will be included in the query. * If a key is specified, then children must have a value less than or equal * to the specified value and a key name less than the specified key. * * @param value - The value to end before. The argument type depends on which * `orderBy*()` function was used in this query. Specify a value that matches * the `orderBy*()` type. When used in combination with `orderByKey()`, the * value must be a string. * @param key - The child key to end before, among the children with the * previously specified priority. This argument is only allowed if ordering by * child, value, or priority. */ function endBefore(value, key) { validateKey('endBefore', 'key', key, true); return new QueryEndBeforeConstraint(value, key); } class QueryStartAtConstraint extends QueryConstraint { constructor(_value, _key) { super(); this._value = _value; this._key = _key; } _apply(query) { validateFirebaseDataArg('startAt', this._value, query._path, true); const newParams = queryParamsStartAt(query._queryParams, this._value, this._key); validateLimit(newParams); validateQueryEndpoints(newParams); if (query._queryParams.hasStart()) { throw new Error('startAt: Starting point was already set (by another call to startAt, ' + 'startBefore or equalTo).'); } return new QueryImpl(query._repo, query._path, newParams, query._orderByCalled); } } /** * Creates a `QueryConstraint` with the specified starting point. * * Using `startAt()`, `startAfter()`, `endBefore()`, `endAt()` and `equalTo()` * allows you to choose arbitrary starting and ending points for your queries. * * The starting point is inclusive, so children with exactly the specified value * will be included in the query. The optional key argument can be used to * further limit the range of the query. If it is specified, then children that * have exactly the specified value must also have a key name greater than or * equal to the specified key. * * You can read more about `startAt()` in * {@link https://firebase.google.com/docs/database/web/lists-of-data#filtering_data | Filtering data}. * * @param value - The value to start at. The argument type depends on which * `orderBy*()` function was used in this query. Specify a value that matches * the `orderBy*()` type. When used in combination with `orderByKey()`, the * value must be a string. * @param key - The child key to start at. This argument is only allowed if * ordering by child, value, or priority. */ function startAt(value = null, key) { validateKey('startAt', 'key', key, true); return new QueryStartAtConstraint(value, key); } class QueryStartAfterConstraint extends QueryConstraint { constructor(_value, _key) { super(); this._value = _value; this._key = _key; } _apply(query) { validateFirebaseDataArg('startAfter', this._value, query._path, false); const newParams = queryParamsStartAfter(query._queryParams, this._value, this._key); validateLimit(newParams); validateQueryEndpoints(newParams); if (query._queryParams.hasStart()) { throw new Error('startAfter: Starting point was already set (by another call to startAt, ' + 'startAfter, or equalTo).'); } return new QueryImpl(query._repo, query._path, newParams, query._orderByCalled); } } /** * Creates a `QueryConstraint` with the specified starting point (exclusive). * * Using `startAt()`, `startAfter()`, `endBefore()`, `endAt()` and `equalTo()` * allows you to choose arbitrary starting and ending points for your queries. * * The starting point is exclusive. If only a value is provided, children * with a value greater than the specified value will be included in the query. * If a key is specified, then children must have a value greater than or equal * to the specified value and a a key name greater than the specified key. * * @param value - The value to start after. The argument type depends on which * `orderBy*()` function was used in this query. Specify a value that matches * the `orderBy*()` type. When used in combination with `orderByKey()`, the * value must be a string. * @param key - The child key to start after. This argument is only allowed if * ordering by child, value, or priority. */ function startAfter(value, key) { validateKey('startAfter', 'key', key, true); return new QueryStartAfterConstraint(value, key); } class QueryLimitToFirstConstraint extends QueryConstraint { constructor(_limit) { super(); this._limit = _limit; } _apply(query) { if (query._queryParams.hasLimit()) { throw new Error('limitToFirst: Limit was already set (by another call to limitToFirst ' + 'or limitToLast).'); } return new QueryImpl(query._repo, query._path, queryParamsLimitToFirst(query._queryParams, this._limit), query._orderByCalled); } } /** * Creates a new `QueryConstraint` that if limited to the first specific number * of children. * * The `limitToFirst()` method is used to set a maximum number of children to be * synced for a given callback. If we set a limit of 100, we will initially only * receive up to 100 `child_added` events. If we have fewer than 100 messages * stored in our Database, a `child_added` event will fire for each message. * However, if we have over 100 messages, we will only receive a `child_added` * event for the first 100 ordered messages. As items change, we will receive * `child_removed` events for each item that drops out of the active list so * that the total number stays at 100. * * You can read more about `limitToFirst()` in * {@link https://firebase.google.com/docs/database/web/lists-of-data#filtering_data | Filtering data}. * * @param limit - The maximum number of nodes to include in this query. */ function limitToFirst(limit) { if (typeof limit !== 'number' || Math.floor(limit) !== limit || limit <= 0) { throw new Error('limitToFirst: First argument must be a positive integer.'); } return new QueryLimitToFirstConstraint(limit); } class QueryLimitToLastConstraint extends QueryConstraint { constructor(_limit) { super(); this._limit = _limit; } _apply(query) { if (query._queryParams.hasLimit()) { throw new Error('limitToLast: Limit was already set (by another call to limitToFirst ' + 'or limitToLast).'); } return new QueryImpl(query._repo, query._path, queryParamsLimitToLast(query._queryParams, this._limit), query._orderByCalled); } } /** * Creates a new `QueryConstraint` that is limited to return only the last * specified number of children. * * The `limitToLast()` method is used to set a maximum number of children to be * synced for a given callback. If we set a limit of 100, we will initially only * receive up to 100 `child_added` events. If we have fewer than 100 messages * stored in our Database, a `child_added` event will fire for each message. * However, if we have over 100 messages, we will only receive a `child_added` * event for the last 100 ordered messages. As items change, we will receive * `child_removed` events for each item that drops out of the active list so * that the total number stays at 100. * * You can read more about `limitToLast()` in * {@link https://firebase.google.com/docs/database/web/lists-of-data#filtering_data | Filtering data}. * * @param limit - The maximum number of nodes to include in this query. */ function limitToLast(limit) { if (typeof limit !== 'number' || Math.floor(limit) !== limit || limit <= 0) { throw new Error('limitToLast: First argument must be a positive integer.'); } return new QueryLimitToLastConstraint(limit); } class QueryOrderByChildConstraint extends QueryConstraint { constructor(_path) { super(); this._path = _path; } _apply(query) { validateNoPreviousOrderByCall(query, 'orderByChild'); const parsedPath = new Path(this._path); if (pathIsEmpty(parsedPath)) { throw new Error('orderByChild: cannot pass in empty path. Use orderByValue() instead.'); } const index = new PathIndex(parsedPath); const newParams = queryParamsOrderBy(query._queryParams, index); validateQueryEndpoints(newParams); return new QueryImpl(query._repo, query._path, newParams, /*orderByCalled=*/ true); } } /** * Creates a new `QueryConstraint` that orders by the specified child key. * * Queries can only order by one key at a time. Calling `orderByChild()` * multiple times on the same query is an error. * * Firebase queries allow you to order your data by any child key on the fly. * However, if you know in advance what your indexes will be, you can define * them via the .indexOn rule in your Security Rules for better performance. See * the{@link https://firebase.google.com/docs/database/security/indexing-data} * rule for more information. * * You can read more about `orderByChild()` in * {@link https://firebase.google.com/docs/database/web/lists-of-data#sort_data | Sort data}. * * @param path - The path to order by. */ function orderByChild(path) { if (path === '$key') { throw new Error('orderByChild: "$key" is invalid. Use orderByKey() instead.'); } else if (path === '$priority') { throw new Error('orderByChild: "$priority" is invalid. Use orderByPriority() instead.'); } else if (path === '$value') { throw new Error('orderByChild: "$value" is invalid. Use orderByValue() instead.'); } validatePathString('orderByChild', 'path', path, false); return new QueryOrderByChildConstraint(path); } class QueryOrderByKeyConstraint extends QueryConstraint { _apply(query) { validateNoPreviousOrderByCall(query, 'orderByKey'); const newParams = queryParamsOrderBy(query._queryParams, KEY_INDEX); validateQueryEndpoints(newParams); return new QueryImpl(query._repo, query._path, newParams, /*orderByCalled=*/ true); } } /** * Creates a new `QueryConstraint` that orders by the key. * * Sorts the results of a query by their (ascending) key values. * * You can read more about `orderByKey()` in * {@link https://firebase.google.com/docs/database/web/lists-of-data#sort_data | Sort data}. */ function orderByKey() { return new QueryOrderByKeyConstraint(); } class QueryOrderByPriorityConstraint extends QueryConstraint { _apply(query) { validateNoPreviousOrderByCall(query, 'orderByPriority'); const newParams = queryParamsOrderBy(query._queryParams, PRIORITY_INDEX); validateQueryEndpoints(newParams); return new QueryImpl(query._repo, query._path, newParams, /*orderByCalled=*/ true); } } /** * Creates a new `QueryConstraint` that orders by priority. * * Applications need not use priority but can order collections by * ordinary properties (see * {@link https://firebase.google.com/docs/database/web/lists-of-data#sort_data | Sort data} * for alternatives to priority. */ function orderByPriority() { return new QueryOrderByPriorityConstraint(); } class QueryOrderByValueConstraint extends QueryConstraint { _apply(query) { validateNoPreviousOrderByCall(query, 'orderByValue'); const newParams = queryParamsOrderBy(query._queryParams, VALUE_INDEX); validateQueryEndpoints(newParams); return new QueryImpl(query._repo, query._path, newParams, /*orderByCalled=*/ true); } } /** * Creates a new `QueryConstraint` that orders by value. * * If the children of a query are all scalar values (string, number, or * boolean), you can order the results by their (ascending) values. * * You can read more about `orderByValue()` in * {@link https://firebase.google.com/docs/database/web/lists-of-data#sort_data | Sort data}. */ function orderByValue() { return new QueryOrderByValueConstraint(); } class QueryEqualToValueConstraint extends QueryConstraint { constructor(_value, _key) { super(); this._value = _value; this._key = _key; } _apply(query) { validateFirebaseDataArg('equalTo', this._value, query._path, false); if (query._queryParams.hasStart()) { throw new Error('equalTo: Starting point was already set (by another call to startAt/startAfter or ' + 'equalTo).'); } if (query._queryParams.hasEnd()) { throw new Error('equalTo: Ending point was already set (by another call to endAt/endBefore or ' + 'equalTo).'); } return new QueryEndAtConstraint(this._value, this._key)._apply(new QueryStartAtConstraint(this._value, this._key)._apply(query)); } } /** * Creates a `QueryConstraint` that includes children that match the specified * value. * * Using `startAt()`, `startAfter()`, `endBefore()`, `endAt()` and `equalTo()` * allows you to choose arbitrary starting and ending points for your queries. * * The optional key argument can be used to further limit the range of the * query. If it is specified, then children that have exactly the specified * value must also have exactly the specified key as their key name. This can be * used to filter result sets with many matches for the same value. * * You can read more about `equalTo()` in * {@link https://firebase.google.com/docs/database/web/lists-of-data#filtering_data | Filtering data}. * * @param value - The value to match for. The argument type depends on which * `orderBy*()` function was used in this query. Specify a value that matches * the `orderBy*()` type. When used in combination with `orderByKey()`, the * value must be a string. * @param key - The child key to start at, among the children with the * previously specified priority. This argument is only allowed if ordering by * child, value, or priority. */ function equalTo(value, key) { validateKey('equalTo', 'key', key, true); return new QueryEqualToValueConstraint(value, key); } /** * Creates a new immutable instance of `Query` that is extended to also include * additional query constraints. * * @param query - The Query instance to use as a base for the new constraints. * @param queryConstraints - The list of `QueryConstraint`s to apply. * @throws if any of the provided query constraints cannot be combined with the * existing or new constraints. */ function query(query, ...queryConstraints) { let queryImpl = getModularInstance(query); for (const constraint of queryConstraints) { queryImpl = constraint._apply(queryImpl); } return queryImpl; } /** * Define reference constructor in various modules * * We are doing this here to avoid several circular * dependency issues */ syncPointSetReferenceConstructor(ReferenceImpl); syncTreeSetReferenceConstructor(ReferenceImpl); /** * @license * Copyright 2020 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * This variable is also defined in the firebase Node.js Admin SDK. Before * modifying this definition, consult the definition in: * * https://github.com/firebase/firebase-admin-node * * and make sure the two are consistent. */ const FIREBASE_DATABASE_EMULATOR_HOST_VAR = 'FIREBASE_DATABASE_EMULATOR_HOST'; /** * Creates and caches `Repo` instances. */ const repos = {}; /** * If true, any new `Repo` will be created to use `ReadonlyRestClient` (for testing purposes). */ let useRestClient = false; /** * Update an existing `Repo` in place to point to a new host/port. */ function repoManagerApplyEmulatorSettings(repo, host, port, tokenProvider) { repo.repoInfo_ = new RepoInfo(`${host}:${port}`, /* secure= */ false, repo.repoInfo_.namespace, repo.repoInfo_.webSocketOnly, repo.repoInfo_.nodeAdmin, repo.repoInfo_.persistenceKey, repo.repoInfo_.includeNamespaceInQueryParams); if (tokenProvider) { repo.authTokenProvider_ = tokenProvider; } } /** * This function should only ever be called to CREATE a new database instance. * @internal */ function repoManagerDatabaseFromApp(app, authProvider, appCheckProvider, url, nodeAdmin) { let dbUrl = url || app.options.databaseURL; if (dbUrl === undefined) { if (!app.options.projectId) { fatal("Can't determine Firebase Database URL. Be sure to include " + ' a Project ID when calling firebase.initializeApp().'); } log('Using default host for project ', app.options.projectId); dbUrl = `${app.options.projectId}-default-rtdb.firebaseio.com`; } let parsedUrl = parseRepoInfo(dbUrl, nodeAdmin); let repoInfo = parsedUrl.repoInfo; let isEmulator; let dbEmulatorHost = undefined; if (typeof process !== 'undefined' && process.env) { dbEmulatorHost = process.env[FIREBASE_DATABASE_EMULATOR_HOST_VAR]; } if (dbEmulatorHost) { isEmulator = true; dbUrl = `http://${dbEmulatorHost}?ns=${repoInfo.namespace}`; parsedUrl = parseRepoInfo(dbUrl, nodeAdmin); repoInfo = parsedUrl.repoInfo; } else { isEmulator = !parsedUrl.repoInfo.secure; } const authTokenProvider = nodeAdmin && isEmulator ? new EmulatorTokenProvider(EmulatorTokenProvider.OWNER) : new FirebaseAuthTokenProvider(app.name, app.options, authProvider); validateUrl('Invalid Firebase Database URL', parsedUrl); if (!pathIsEmpty(parsedUrl.path)) { fatal('Database URL must point to the root of a Firebase Database ' + '(not including a child path).'); } const repo = repoManagerCreateRepo(repoInfo, app, authTokenProvider, new AppCheckTokenProvider(app.name, appCheckProvider)); return new Database(repo, app); } /** * Remove the repo and make sure it is disconnected. * */ function repoManagerDeleteRepo(repo, appName) { const appRepos = repos[appName]; // This should never happen... if (!appRepos || appRepos[repo.key] !== repo) { fatal(`Database ${appName}(${repo.repoInfo_}) has already been deleted.`); } repoInterrupt(repo); delete appRepos[repo.key]; } /** * Ensures a repo doesn't already exist and then creates one using the * provided app. * * @param repoInfo - The metadata about the Repo * @returns The Repo object for the specified server / repoName. */ function repoManagerCreateRepo(repoInfo, app, authTokenProvider, appCheckProvider) { let appRepos = repos[app.name]; if (!appRepos) { appRepos = {}; repos[app.name] = appRepos; } let repo = appRepos[repoInfo.toURLString()]; if (repo) { fatal('Database initialized multiple times. Please make sure the format of the database URL matches with each database() call.'); } repo = new Repo(repoInfo, useRestClient, authTokenProvider, appCheckProvider); appRepos[repoInfo.toURLString()] = repo; return repo; } /** * Forces us to use ReadonlyRestClient instead of PersistentConnection for new Repos. */ function repoManagerForceRestClient(forceRestClient) { useRestClient = forceRestClient; } /** * Class representing a Firebase Realtime Database. */ class Database { /** @hideconstructor */ constructor(_repoInternal, /** The {@link @firebase/app#FirebaseApp} associated with this Realtime Database instance. */ app) { this._repoInternal = _repoInternal; this.app = app; /** Represents a `Database` instance. */ this['type'] = 'database'; /** Track if the instance has been used (root or repo accessed) */ this._instanceStarted = false; } get _repo() { if (!this._instanceStarted) { repoStart(this._repoInternal, this.app.options.appId, this.app.options['databaseAuthVariableOverride']); this._instanceStarted = true; } return this._repoInternal; } get _root() { if (!this._rootInternal) { this._rootInternal = new ReferenceImpl(this._repo, newEmptyPath()); } return this._rootInternal; } _delete() { if (this._rootInternal !== null) { repoManagerDeleteRepo(this._repo, this.app.name); this._repoInternal = null; this._rootInternal = null; } return Promise.resolve(); } _checkNotDeleted(apiName) { if (this._rootInternal === null) { fatal('Cannot call ' + apiName + ' on a deleted database.'); } } } function checkTransportInit() { if (TransportManager.IS_TRANSPORT_INITIALIZED) { warn('Transport has already been initialized. Please call this function before calling ref or setting up a listener'); } } /** * Force the use of websockets instead of longPolling. */ function forceWebSockets() { checkTransportInit(); BrowserPollConnection.forceDisallow(); } /** * Force the use of longPolling instead of websockets. This will be ignored if websocket protocol is used in databaseURL. */ function forceLongPolling() { checkTransportInit(); WebSocketConnection.forceDisallow(); BrowserPollConnection.forceAllow(); } /** * Returns the instance of the Realtime Database SDK that is associated * with the provided {@link @firebase/app#FirebaseApp}. Initializes a new instance with * with default settings if no instance exists or if the existing instance uses * a custom database URL. * * @param app - The {@link @firebase/app#FirebaseApp} instance that the returned Realtime * Database instance is associated with. * @param url - The URL of the Realtime Database instance to connect to. If not * provided, the SDK connects to the default instance of the Firebase App. * @returns The `Database` instance of the provided app. */ function getDatabase(app = getApp(), url) { const db = _getProvider(app, 'database').getImmediate({ identifier: url }); if (!db._instanceStarted) { const emulator = getDefaultEmulatorHostnameAndPort('database'); if (emulator) { connectDatabaseEmulator(db, ...emulator); } } return db; } /** * Modify the provided instance to communicate with the Realtime Database * emulator. * *

Note: This method must be called before performing any other operation. * * @param db - The instance to modify. * @param host - The emulator host (ex: localhost) * @param port - The emulator port (ex: 8080) * @param options.mockUserToken - the mock auth token to use for unit testing Security Rules */ function connectDatabaseEmulator(db, host, port, options = {}) { db = getModularInstance(db); db._checkNotDeleted('useEmulator'); if (db._instanceStarted) { fatal('Cannot call useEmulator() after instance has already been initialized.'); } const repo = db._repoInternal; let tokenProvider = undefined; if (repo.repoInfo_.nodeAdmin) { if (options.mockUserToken) { fatal('mockUserToken is not supported by the Admin SDK. For client access with mock users, please use the "firebase" package instead of "firebase-admin".'); } tokenProvider = new EmulatorTokenProvider(EmulatorTokenProvider.OWNER); } else if (options.mockUserToken) { const token = typeof options.mockUserToken === 'string' ? options.mockUserToken : createMockUserToken(options.mockUserToken, db.app.options.projectId); tokenProvider = new EmulatorTokenProvider(token); } // Modify the repo to apply emulator settings repoManagerApplyEmulatorSettings(repo, host, port, tokenProvider); } /** * Disconnects from the server (all Database operations will be completed * offline). * * The client automatically maintains a persistent connection to the Database * server, which will remain active indefinitely and reconnect when * disconnected. However, the `goOffline()` and `goOnline()` methods may be used * to control the client connection in cases where a persistent connection is * undesirable. * * While offline, the client will no longer receive data updates from the * Database. However, all Database operations performed locally will continue to * immediately fire events, allowing your application to continue behaving * normally. Additionally, each operation performed locally will automatically * be queued and retried upon reconnection to the Database server. * * To reconnect to the Database and begin receiving remote events, see * `goOnline()`. * * @param db - The instance to disconnect. */ function goOffline(db) { db = getModularInstance(db); db._checkNotDeleted('goOffline'); repoInterrupt(db._repo); } /** * Reconnects to the server and synchronizes the offline Database state * with the server state. * * This method should be used after disabling the active connection with * `goOffline()`. Once reconnected, the client will transmit the proper data * and fire the appropriate events so that your client "catches up" * automatically. * * @param db - The instance to reconnect. */ function goOnline(db) { db = getModularInstance(db); db._checkNotDeleted('goOnline'); repoResume(db._repo); } function enableLogging(logger, persistent) { enableLogging$1(logger, persistent); } /** * @license * Copyright 2021 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ function registerDatabase(variant) { setSDKVersion(SDK_VERSION$1); _registerComponent(new Component('database', (container, { instanceIdentifier: url }) => { const app = container.getProvider('app').getImmediate(); const authProvider = container.getProvider('auth-internal'); const appCheckProvider = container.getProvider('app-check-internal'); return repoManagerDatabaseFromApp(app, authProvider, appCheckProvider, url); }, "PUBLIC" /* ComponentType.PUBLIC */).setMultipleInstances(true)); registerVersion(name, version, variant); // BUILD_TARGET will be replaced by values like esm5, esm2017, cjs5, etc during the compilation registerVersion(name, version, 'esm2017'); } /** * @license * Copyright 2020 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ const SERVER_TIMESTAMP = { '.sv': 'timestamp' }; /** * Returns a placeholder value for auto-populating the current timestamp (time * since the Unix epoch, in milliseconds) as determined by the Firebase * servers. */ function serverTimestamp() { return SERVER_TIMESTAMP; } /** * Returns a placeholder value that can be used to atomically increment the * current database value by the provided delta. * * @param delta - the amount to modify the current value atomically. * @returns A placeholder value for modifying data atomically server-side. */ function increment(delta) { return { '.sv': { 'increment': delta } }; } /** * @license * Copyright 2020 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * A type for the resolve value of {@link runTransaction}. */ class TransactionResult { /** @hideconstructor */ constructor( /** Whether the transaction was successfully committed. */ committed, /** The resulting data snapshot. */ snapshot) { this.committed = committed; this.snapshot = snapshot; } /** Returns a JSON-serializable representation of this object. */ toJSON() { return { committed: this.committed, snapshot: this.snapshot.toJSON() }; } } /** * Atomically modifies the data at this location. * * Atomically modify the data at this location. Unlike a normal `set()`, which * just overwrites the data regardless of its previous value, `runTransaction()` is * used to modify the existing value to a new value, ensuring there are no * conflicts with other clients writing to the same location at the same time. * * To accomplish this, you pass `runTransaction()` an update function which is * used to transform the current value into a new value. If another client * writes to the location before your new value is successfully written, your * update function will be called again with the new current value, and the * write will be retried. This will happen repeatedly until your write succeeds * without conflict or you abort the transaction by not returning a value from * your update function. * * Note: Modifying data with `set()` will cancel any pending transactions at * that location, so extreme care should be taken if mixing `set()` and * `runTransaction()` to update the same data. * * Note: When using transactions with Security and Firebase Rules in place, be * aware that a client needs `.read` access in addition to `.write` access in * order to perform a transaction. This is because the client-side nature of * transactions requires the client to read the data in order to transactionally * update it. * * @param ref - The location to atomically modify. * @param transactionUpdate - A developer-supplied function which will be passed * the current data stored at this location (as a JavaScript object). The * function should return the new value it would like written (as a JavaScript * object). If `undefined` is returned (i.e. you return with no arguments) the * transaction will be aborted and the data at this location will not be * modified. * @param options - An options object to configure transactions. * @returns A `Promise` that can optionally be used instead of the `onComplete` * callback to handle success and failure. */ function runTransaction(ref, // eslint-disable-next-line @typescript-eslint/no-explicit-any transactionUpdate, options) { var _a; ref = getModularInstance(ref); validateWritablePath('Reference.transaction', ref._path); if (ref.key === '.length' || ref.key === '.keys') { throw ('Reference.transaction failed: ' + ref.key + ' is a read-only object.'); } const applyLocally = (_a = options === null || options === void 0 ? void 0 : options.applyLocally) !== null && _a !== void 0 ? _a : true; const deferred = new Deferred(); const promiseComplete = (error, committed, node) => { let dataSnapshot = null; if (error) { deferred.reject(error); } else { dataSnapshot = new DataSnapshot(node, new ReferenceImpl(ref._repo, ref._path), PRIORITY_INDEX); deferred.resolve(new TransactionResult(committed, dataSnapshot)); } }; // Add a watch to make sure we get server updates. const unwatcher = onValue(ref, () => { }); repoStartTransaction(ref._repo, ref._path, transactionUpdate, promiseComplete, unwatcher, applyLocally); return deferred.promise; } /** * @license * Copyright 2017 Google LLC * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ PersistentConnection; // eslint-disable-next-line @typescript-eslint/no-explicit-any PersistentConnection.prototype.simpleListen = function (pathString, onComplete) { this.sendRequest('q', { p: pathString }, onComplete); }; // eslint-disable-next-line @typescript-eslint/no-explicit-any PersistentConnection.prototype.echo = function (data, onEcho) { this.sendRequest('echo', { d: data }, onEcho); }; // RealTimeConnection properties that we use in tests. Connection; /** * @internal */ const hijackHash = function (newHash) { const oldPut = PersistentConnection.prototype.put; PersistentConnection.prototype.put = function (pathString, data, onComplete, hash) { if (hash !== undefined) { hash = newHash(); } oldPut.call(this, pathString, data, onComplete, hash); }; return function () { PersistentConnection.prototype.put = oldPut; }; }; RepoInfo; /** * Forces the RepoManager to create Repos that use ReadonlyRestClient instead of PersistentConnection. * @internal */ const forceRestClient = function (forceRestClient) { repoManagerForceRestClient(forceRestClient); }; /** * Firebase Realtime Database * * @packageDocumentation */ registerDatabase(); export { DataSnapshot, Database, OnDisconnect, QueryConstraint, TransactionResult, QueryImpl as _QueryImpl, QueryParams as _QueryParams, ReferenceImpl as _ReferenceImpl, forceRestClient as _TEST_ACCESS_forceRestClient, hijackHash as _TEST_ACCESS_hijackHash, repoManagerDatabaseFromApp as _repoManagerDatabaseFromApp, setSDKVersion as _setSDKVersion, validatePathString as _validatePathString, validateWritablePath as _validateWritablePath, child, connectDatabaseEmulator, enableLogging, endAt, endBefore, equalTo, forceLongPolling, forceWebSockets, get, getDatabase, goOffline, goOnline, increment, limitToFirst, limitToLast, off, onChildAdded, onChildChanged, onChildMoved, onChildRemoved, onDisconnect, onValue, orderByChild, orderByKey, orderByPriority, orderByValue, push, query, ref, refFromURL, remove, runTransaction, serverTimestamp, set, setPriority, setWithPriority, startAfter, startAt, update }; //# sourceMappingURL=index.esm2017.js.map