mobileapplicationPassvault/node_modules/@firebase/firestore/dist/lite/index.node.cjs.js

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2024-04-12 05:23:32 +00:00
'use strict';
Object.defineProperty(exports, '__esModule', { value: true });
var app = require('@firebase/app');
var component = require('@firebase/component');
var logger = require('@firebase/logger');
var util$1 = require('util');
var util = require('@firebase/util');
var undici = require('undici');
var crypto = require('crypto');
const version$1 = "4.4.2";
/**
* @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.
*/
/**
* Simple wrapper around a nullable UID. Mostly exists to make code more
* readable.
*/
class User {
constructor(uid) {
this.uid = uid;
}
isAuthenticated() {
return this.uid != null;
}
/**
* Returns a key representing this user, suitable for inclusion in a
* dictionary.
*/
toKey() {
if (this.isAuthenticated()) {
return 'uid:' + this.uid;
}
else {
return 'anonymous-user';
}
}
isEqual(otherUser) {
return otherUser.uid === this.uid;
}
}
/** A user with a null UID. */
User.UNAUTHENTICATED = new User(null);
// TODO(mikelehen): Look into getting a proper uid-equivalent for
// non-FirebaseAuth providers.
User.GOOGLE_CREDENTIALS = new User('google-credentials-uid');
User.FIRST_PARTY = new User('first-party-uid');
User.MOCK_USER = new User('mock-user');
const version = "10.8.0";
/**
* @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.
*/
let SDK_VERSION = version;
function setSDKVersion(version) {
SDK_VERSION = version;
}
/**
* @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.
*/
/** Formats an object as a JSON string, suitable for logging. */
function formatJSON(value) {
// util.inspect() results in much more readable output than JSON.stringify()
return util$1.inspect(value, { depth: 100 });
}
/**
* @license
* Copyright 2017 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
const logClient = new logger.Logger('@firebase/firestore');
/**
* Sets the verbosity of Cloud Firestore logs (debug, error, or silent).
*
* @param logLevel - The verbosity you set for activity and error logging. Can
* be any of the following values:
*
* <ul>
* <li>`debug` for the most verbose logging level, primarily for
* debugging.</li>
* <li>`error` to log errors only.</li>
* <li><code>`silent` to turn off logging.</li>
* </ul>
*/
function setLogLevel(logLevel) {
logClient.setLogLevel(logLevel);
}
function logDebug(msg, ...obj) {
if (logClient.logLevel <= logger.LogLevel.DEBUG) {
const args = obj.map(argToString);
logClient.debug(`Firestore (${SDK_VERSION}): ${msg}`, ...args);
}
}
function logError(msg, ...obj) {
if (logClient.logLevel <= logger.LogLevel.ERROR) {
const args = obj.map(argToString);
logClient.error(`Firestore (${SDK_VERSION}): ${msg}`, ...args);
}
}
/**
* @internal
*/
function logWarn(msg, ...obj) {
if (logClient.logLevel <= logger.LogLevel.WARN) {
const args = obj.map(argToString);
logClient.warn(`Firestore (${SDK_VERSION}): ${msg}`, ...args);
}
}
/**
* Converts an additional log parameter to a string representation.
*/
function argToString(obj) {
if (typeof obj === 'string') {
return obj;
}
else {
try {
return formatJSON(obj);
}
catch (e) {
// Converting to JSON failed, just log the object directly
return obj;
}
}
}
/**
* @license
* Copyright 2017 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* Unconditionally fails, throwing an Error with the given message.
* Messages are stripped in production builds.
*
* Returns `never` and can be used in expressions:
* @example
* let futureVar = fail('not implemented yet');
*/
function fail(failure = 'Unexpected state') {
// Log the failure in addition to throw an exception, just in case the
// exception is swallowed.
const message = `FIRESTORE (${SDK_VERSION}) INTERNAL ASSERTION FAILED: ` + failure;
logError(message);
// NOTE: We don't use FirestoreError here because these are internal failures
// that cannot be handled by the user. (Also it would create a circular
// dependency between the error and assert modules which doesn't work.)
throw new Error(message);
}
/**
* Fails if the given assertion condition is false, throwing an Error with the
* given message if it did.
*
* Messages are stripped in production builds.
*/
function hardAssert(assertion, message) {
if (!assertion) {
fail();
}
}
/**
* Casts `obj` to `T`. In non-production builds, verifies that `obj` is an
* instance of `T` before casting.
*/
function debugCast(obj,
// eslint-disable-next-line @typescript-eslint/no-explicit-any
constructor) {
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.
*/
const Code = {
// Causes are copied from:
// https://github.com/grpc/grpc/blob/bceec94ea4fc5f0085d81235d8e1c06798dc341a/include/grpc%2B%2B/impl/codegen/status_code_enum.h
/** Not an error; returned on success. */
OK: 'ok',
/** The operation was cancelled (typically by the caller). */
CANCELLED: 'cancelled',
/** Unknown error or an error from a different error domain. */
UNKNOWN: 'unknown',
/**
* Client specified an invalid argument. Note that this differs from
* FAILED_PRECONDITION. INVALID_ARGUMENT indicates arguments that are
* problematic regardless of the state of the system (e.g., a malformed file
* name).
*/
INVALID_ARGUMENT: 'invalid-argument',
/**
* Deadline expired before operation could complete. For operations that
* change the state of the system, this error may be returned even if the
* operation has completed successfully. For example, a successful response
* from a server could have been delayed long enough for the deadline to
* expire.
*/
DEADLINE_EXCEEDED: 'deadline-exceeded',
/** Some requested entity (e.g., file or directory) was not found. */
NOT_FOUND: 'not-found',
/**
* Some entity that we attempted to create (e.g., file or directory) already
* exists.
*/
ALREADY_EXISTS: 'already-exists',
/**
* The caller does not have permission to execute the specified operation.
* PERMISSION_DENIED must not be used for rejections caused by exhausting
* some resource (use RESOURCE_EXHAUSTED instead for those errors).
* PERMISSION_DENIED must not be used if the caller can not be identified
* (use UNAUTHENTICATED instead for those errors).
*/
PERMISSION_DENIED: 'permission-denied',
/**
* The request does not have valid authentication credentials for the
* operation.
*/
UNAUTHENTICATED: 'unauthenticated',
/**
* Some resource has been exhausted, perhaps a per-user quota, or perhaps the
* entire file system is out of space.
*/
RESOURCE_EXHAUSTED: 'resource-exhausted',
/**
* Operation was rejected because the system is not in a state required for
* the operation's execution. For example, directory to be deleted may be
* non-empty, an rmdir operation is applied to a non-directory, etc.
*
* A litmus test that may help a service implementor in deciding
* between FAILED_PRECONDITION, ABORTED, and UNAVAILABLE:
* (a) Use UNAVAILABLE if the client can retry just the failing call.
* (b) Use ABORTED if the client should retry at a higher-level
* (e.g., restarting a read-modify-write sequence).
* (c) Use FAILED_PRECONDITION if the client should not retry until
* the system state has been explicitly fixed. E.g., if an "rmdir"
* fails because the directory is non-empty, FAILED_PRECONDITION
* should be returned since the client should not retry unless
* they have first fixed up the directory by deleting files from it.
* (d) Use FAILED_PRECONDITION if the client performs conditional
* REST Get/Update/Delete on a resource and the resource on the
* server does not match the condition. E.g., conflicting
* read-modify-write on the same resource.
*/
FAILED_PRECONDITION: 'failed-precondition',
/**
* The operation was aborted, typically due to a concurrency issue like
* sequencer check failures, transaction aborts, etc.
*
* See litmus test above for deciding between FAILED_PRECONDITION, ABORTED,
* and UNAVAILABLE.
*/
ABORTED: 'aborted',
/**
* Operation was attempted past the valid range. E.g., seeking or reading
* past end of file.
*
* Unlike INVALID_ARGUMENT, this error indicates a problem that may be fixed
* if the system state changes. For example, a 32-bit file system will
* generate INVALID_ARGUMENT if asked to read at an offset that is not in the
* range [0,2^32-1], but it will generate OUT_OF_RANGE if asked to read from
* an offset past the current file size.
*
* There is a fair bit of overlap between FAILED_PRECONDITION and
* OUT_OF_RANGE. We recommend using OUT_OF_RANGE (the more specific error)
* when it applies so that callers who are iterating through a space can
* easily look for an OUT_OF_RANGE error to detect when they are done.
*/
OUT_OF_RANGE: 'out-of-range',
/** Operation is not implemented or not supported/enabled in this service. */
UNIMPLEMENTED: 'unimplemented',
/**
* Internal errors. Means some invariants expected by underlying System has
* been broken. If you see one of these errors, Something is very broken.
*/
INTERNAL: 'internal',
/**
* The service is currently unavailable. This is a most likely a transient
* condition and may be corrected by retrying with a backoff.
*
* See litmus test above for deciding between FAILED_PRECONDITION, ABORTED,
* and UNAVAILABLE.
*/
UNAVAILABLE: 'unavailable',
/** Unrecoverable data loss or corruption. */
DATA_LOSS: 'data-loss'
};
/** An error returned by a Firestore operation. */
class FirestoreError extends util.FirebaseError {
/** @hideconstructor */
constructor(
/**
* The backend error code associated with this error.
*/
code,
/**
* A custom error description.
*/
message) {
super(code, message);
this.code = code;
this.message = message;
// HACK: We write a toString property directly because Error is not a real
// class and so inheritance does not work correctly. We could alternatively
// do the same "back-door inheritance" trick that FirebaseError does.
this.toString = () => `${this.name}: [code=${this.code}]: ${this.message}`;
}
}
/**
* @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 Deferred {
constructor() {
this.promise = new Promise((resolve, reject) => {
this.resolve = resolve;
this.reject = reject;
});
}
}
/**
* @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 OAuthToken {
constructor(value, user) {
this.user = user;
this.type = 'OAuth';
this.headers = new Map();
this.headers.set('Authorization', `Bearer ${value}`);
}
}
/**
* A CredentialsProvider that always yields an empty token.
* @internal
*/
class EmptyAuthCredentialsProvider {
getToken() {
return Promise.resolve(null);
}
invalidateToken() { }
start(asyncQueue, changeListener) {
// Fire with initial user.
asyncQueue.enqueueRetryable(() => changeListener(User.UNAUTHENTICATED));
}
shutdown() { }
}
/**
* A CredentialsProvider that always returns a constant token. Used for
* emulator token mocking.
*/
class EmulatorAuthCredentialsProvider {
constructor(token) {
this.token = token;
/**
* Stores the listener registered with setChangeListener()
* This isn't actually necessary since the UID never changes, but we use this
* to verify the listen contract is adhered to in tests.
*/
this.changeListener = null;
}
getToken() {
return Promise.resolve(this.token);
}
invalidateToken() { }
start(asyncQueue, changeListener) {
this.changeListener = changeListener;
// Fire with initial user.
asyncQueue.enqueueRetryable(() => changeListener(this.token.user));
}
shutdown() {
this.changeListener = null;
}
}
/** Credential provider for the Lite SDK. */
class LiteAuthCredentialsProvider {
constructor(authProvider) {
this.auth = null;
authProvider.onInit(auth => {
this.auth = auth;
});
}
getToken() {
if (!this.auth) {
return Promise.resolve(null);
}
return this.auth.getToken().then(tokenData => {
if (tokenData) {
hardAssert(typeof tokenData.accessToken === 'string');
return new OAuthToken(tokenData.accessToken, new User(this.auth.getUid()));
}
else {
return null;
}
});
}
invalidateToken() { }
start(asyncQueue, changeListener) { }
shutdown() { }
}
/*
* FirstPartyToken provides a fresh token each time its value
* is requested, because if the token is too old, requests will be rejected.
* Technically this may no longer be necessary since the SDK should gracefully
* recover from unauthenticated errors (see b/33147818 for context), but it's
* safer to keep the implementation as-is.
*/
class FirstPartyToken {
constructor(sessionIndex, iamToken, authTokenFactory) {
this.sessionIndex = sessionIndex;
this.iamToken = iamToken;
this.authTokenFactory = authTokenFactory;
this.type = 'FirstParty';
this.user = User.FIRST_PARTY;
this._headers = new Map();
}
/**
* Gets an authorization token, using a provided factory function, or return
* null.
*/
getAuthToken() {
if (this.authTokenFactory) {
return this.authTokenFactory();
}
else {
return null;
}
}
get headers() {
this._headers.set('X-Goog-AuthUser', this.sessionIndex);
// Use array notation to prevent minification
const authHeaderTokenValue = this.getAuthToken();
if (authHeaderTokenValue) {
this._headers.set('Authorization', authHeaderTokenValue);
}
if (this.iamToken) {
this._headers.set('X-Goog-Iam-Authorization-Token', this.iamToken);
}
return this._headers;
}
}
/*
* Provides user credentials required for the Firestore JavaScript SDK
* to authenticate the user, using technique that is only available
* to applications hosted by Google.
*/
class FirstPartyAuthCredentialsProvider {
constructor(sessionIndex, iamToken, authTokenFactory) {
this.sessionIndex = sessionIndex;
this.iamToken = iamToken;
this.authTokenFactory = authTokenFactory;
}
getToken() {
return Promise.resolve(new FirstPartyToken(this.sessionIndex, this.iamToken, this.authTokenFactory));
}
start(asyncQueue, changeListener) {
// Fire with initial uid.
asyncQueue.enqueueRetryable(() => changeListener(User.FIRST_PARTY));
}
shutdown() { }
invalidateToken() { }
}
class AppCheckToken {
constructor(value) {
this.value = value;
this.type = 'AppCheck';
this.headers = new Map();
if (value && value.length > 0) {
this.headers.set('x-firebase-appcheck', this.value);
}
}
}
/** AppCheck token provider for the Lite SDK. */
class LiteAppCheckTokenProvider {
constructor(appCheckProvider) {
this.appCheckProvider = appCheckProvider;
this.appCheck = null;
appCheckProvider.onInit(appCheck => {
this.appCheck = appCheck;
});
}
getToken() {
if (!this.appCheck) {
return Promise.resolve(null);
}
return this.appCheck.getToken().then(tokenResult => {
if (tokenResult) {
hardAssert(typeof tokenResult.token === 'string');
return new AppCheckToken(tokenResult.token);
}
else {
return null;
}
});
}
invalidateToken() { }
start(asyncQueue, changeListener) { }
shutdown() { }
}
/**
* Builds a CredentialsProvider depending on the type of
* the credentials passed in.
*/
function makeAuthCredentialsProvider(credentials) {
if (!credentials) {
return new EmptyAuthCredentialsProvider();
}
switch (credentials['type']) {
case 'firstParty':
return new FirstPartyAuthCredentialsProvider(credentials['sessionIndex'] || '0', credentials['iamToken'] || null, credentials['authTokenFactory'] || null);
case 'provider':
return credentials['client'];
default:
throw new FirestoreError(Code.INVALID_ARGUMENT, 'makeAuthCredentialsProvider failed due to invalid credential type');
}
}
/**
* @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 DatabaseInfo {
/**
* Constructs a DatabaseInfo using the provided host, databaseId and
* persistenceKey.
*
* @param databaseId - The database to use.
* @param appId - The Firebase App Id.
* @param persistenceKey - A unique identifier for this Firestore's local
* storage (used in conjunction with the databaseId).
* @param host - The Firestore backend host to connect to.
* @param ssl - Whether to use SSL when connecting.
* @param forceLongPolling - Whether to use the forceLongPolling option
* when using WebChannel as the network transport.
* @param autoDetectLongPolling - Whether to use the detectBufferingProxy
* option when using WebChannel as the network transport.
* @param longPollingOptions Options that configure long-polling.
* @param useFetchStreams Whether to use the Fetch API instead of
* XMLHTTPRequest
*/
constructor(databaseId, appId, persistenceKey, host, ssl, forceLongPolling, autoDetectLongPolling, longPollingOptions, useFetchStreams) {
this.databaseId = databaseId;
this.appId = appId;
this.persistenceKey = persistenceKey;
this.host = host;
this.ssl = ssl;
this.forceLongPolling = forceLongPolling;
this.autoDetectLongPolling = autoDetectLongPolling;
this.longPollingOptions = longPollingOptions;
this.useFetchStreams = useFetchStreams;
}
}
/** The default database name for a project. */
const DEFAULT_DATABASE_NAME = '(default)';
/**
* Represents the database ID a Firestore client is associated with.
* @internal
*/
class DatabaseId {
constructor(projectId, database) {
this.projectId = projectId;
this.database = database ? database : DEFAULT_DATABASE_NAME;
}
static empty() {
return new DatabaseId('', '');
}
get isDefaultDatabase() {
return this.database === DEFAULT_DATABASE_NAME;
}
isEqual(other) {
return (other instanceof DatabaseId &&
other.projectId === this.projectId &&
other.database === this.database);
}
}
function databaseIdFromApp(app, database) {
if (!Object.prototype.hasOwnProperty.apply(app.options, ['projectId'])) {
throw new FirestoreError(Code.INVALID_ARGUMENT, '"projectId" not provided in firebase.initializeApp.');
}
return new DatabaseId(app.options.projectId, database);
}
/**
* @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 DOCUMENT_KEY_NAME = '__name__';
/**
* Path represents an ordered sequence of string segments.
*/
class BasePath {
constructor(segments, offset, length) {
if (offset === undefined) {
offset = 0;
}
else if (offset > segments.length) {
fail();
}
if (length === undefined) {
length = segments.length - offset;
}
else if (length > segments.length - offset) {
fail();
}
this.segments = segments;
this.offset = offset;
this.len = length;
}
get length() {
return this.len;
}
isEqual(other) {
return BasePath.comparator(this, other) === 0;
}
child(nameOrPath) {
const segments = this.segments.slice(this.offset, this.limit());
if (nameOrPath instanceof BasePath) {
nameOrPath.forEach(segment => {
segments.push(segment);
});
}
else {
segments.push(nameOrPath);
}
return this.construct(segments);
}
/** The index of one past the last segment of the path. */
limit() {
return this.offset + this.length;
}
popFirst(size) {
size = size === undefined ? 1 : size;
return this.construct(this.segments, this.offset + size, this.length - size);
}
popLast() {
return this.construct(this.segments, this.offset, this.length - 1);
}
firstSegment() {
return this.segments[this.offset];
}
lastSegment() {
return this.get(this.length - 1);
}
get(index) {
return this.segments[this.offset + index];
}
isEmpty() {
return this.length === 0;
}
isPrefixOf(other) {
if (other.length < this.length) {
return false;
}
for (let i = 0; i < this.length; i++) {
if (this.get(i) !== other.get(i)) {
return false;
}
}
return true;
}
isImmediateParentOf(potentialChild) {
if (this.length + 1 !== potentialChild.length) {
return false;
}
for (let i = 0; i < this.length; i++) {
if (this.get(i) !== potentialChild.get(i)) {
return false;
}
}
return true;
}
forEach(fn) {
for (let i = this.offset, end = this.limit(); i < end; i++) {
fn(this.segments[i]);
}
}
toArray() {
return this.segments.slice(this.offset, this.limit());
}
static comparator(p1, p2) {
const len = Math.min(p1.length, p2.length);
for (let i = 0; i < len; i++) {
const left = p1.get(i);
const right = p2.get(i);
if (left < right) {
return -1;
}
if (left > right) {
return 1;
}
}
if (p1.length < p2.length) {
return -1;
}
if (p1.length > p2.length) {
return 1;
}
return 0;
}
}
/**
* A slash-separated path for navigating resources (documents and collections)
* within Firestore.
*
* @internal
*/
class ResourcePath extends BasePath {
construct(segments, offset, length) {
return new ResourcePath(segments, offset, length);
}
canonicalString() {
// NOTE: The client is ignorant of any path segments containing escape
// sequences (e.g. __id123__) and just passes them through raw (they exist
// for legacy reasons and should not be used frequently).
return this.toArray().join('/');
}
toString() {
return this.canonicalString();
}
/**
* Returns a string representation of this path
* where each path segment has been encoded with
* `encodeURIComponent`.
*/
toUriEncodedString() {
return this.toArray().map(encodeURIComponent).join('/');
}
/**
* Creates a resource path from the given slash-delimited string. If multiple
* arguments are provided, all components are combined. Leading and trailing
* slashes from all components are ignored.
*/
static fromString(...pathComponents) {
// NOTE: The client is ignorant of any path segments containing escape
// sequences (e.g. __id123__) and just passes them through raw (they exist
// for legacy reasons and should not be used frequently).
const segments = [];
for (const path of pathComponents) {
if (path.indexOf('//') >= 0) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Invalid segment (${path}). Paths must not contain // in them.`);
}
// Strip leading and traling slashed.
segments.push(...path.split('/').filter(segment => segment.length > 0));
}
return new ResourcePath(segments);
}
static emptyPath() {
return new ResourcePath([]);
}
}
const identifierRegExp = /^[_a-zA-Z][_a-zA-Z0-9]*$/;
/**
* A dot-separated path for navigating sub-objects within a document.
* @internal
*/
class FieldPath$1 extends BasePath {
construct(segments, offset, length) {
return new FieldPath$1(segments, offset, length);
}
/**
* Returns true if the string could be used as a segment in a field path
* without escaping.
*/
static isValidIdentifier(segment) {
return identifierRegExp.test(segment);
}
canonicalString() {
return this.toArray()
.map(str => {
str = str.replace(/\\/g, '\\\\').replace(/`/g, '\\`');
if (!FieldPath$1.isValidIdentifier(str)) {
str = '`' + str + '`';
}
return str;
})
.join('.');
}
toString() {
return this.canonicalString();
}
/**
* Returns true if this field references the key of a document.
*/
isKeyField() {
return this.length === 1 && this.get(0) === DOCUMENT_KEY_NAME;
}
/**
* The field designating the key of a document.
*/
static keyField() {
return new FieldPath$1([DOCUMENT_KEY_NAME]);
}
/**
* Parses a field string from the given server-formatted string.
*
* - Splitting the empty string is not allowed (for now at least).
* - Empty segments within the string (e.g. if there are two consecutive
* separators) are not allowed.
*
* TODO(b/37244157): we should make this more strict. Right now, it allows
* non-identifier path components, even if they aren't escaped.
*/
static fromServerFormat(path) {
const segments = [];
let current = '';
let i = 0;
const addCurrentSegment = () => {
if (current.length === 0) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Invalid field path (${path}). Paths must not be empty, begin ` +
`with '.', end with '.', or contain '..'`);
}
segments.push(current);
current = '';
};
let inBackticks = false;
while (i < path.length) {
const c = path[i];
if (c === '\\') {
if (i + 1 === path.length) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Path has trailing escape character: ' + path);
}
const next = path[i + 1];
if (!(next === '\\' || next === '.' || next === '`')) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Path has invalid escape sequence: ' + path);
}
current += next;
i += 2;
}
else if (c === '`') {
inBackticks = !inBackticks;
i++;
}
else if (c === '.' && !inBackticks) {
addCurrentSegment();
i++;
}
else {
current += c;
i++;
}
}
addCurrentSegment();
if (inBackticks) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Unterminated ` in path: ' + path);
}
return new FieldPath$1(segments);
}
static emptyPath() {
return new FieldPath$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.
*/
/**
* @internal
*/
class DocumentKey {
constructor(path) {
this.path = path;
}
static fromPath(path) {
return new DocumentKey(ResourcePath.fromString(path));
}
static fromName(name) {
return new DocumentKey(ResourcePath.fromString(name).popFirst(5));
}
static empty() {
return new DocumentKey(ResourcePath.emptyPath());
}
get collectionGroup() {
return this.path.popLast().lastSegment();
}
/** Returns true if the document is in the specified collectionId. */
hasCollectionId(collectionId) {
return (this.path.length >= 2 &&
this.path.get(this.path.length - 2) === collectionId);
}
/** Returns the collection group (i.e. the name of the parent collection) for this key. */
getCollectionGroup() {
return this.path.get(this.path.length - 2);
}
/** Returns the fully qualified path to the parent collection. */
getCollectionPath() {
return this.path.popLast();
}
isEqual(other) {
return (other !== null && ResourcePath.comparator(this.path, other.path) === 0);
}
toString() {
return this.path.toString();
}
static comparator(k1, k2) {
return ResourcePath.comparator(k1.path, k2.path);
}
static isDocumentKey(path) {
return path.length % 2 === 0;
}
/**
* Creates and returns a new document key with the given segments.
*
* @param segments - The segments of the path to the document
* @returns A new instance of DocumentKey
*/
static fromSegments(segments) {
return new DocumentKey(new ResourcePath(segments.slice()));
}
}
/**
* @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 validateNonEmptyArgument(functionName, argumentName, argument) {
if (!argument) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Function ${functionName}() cannot be called with an empty ${argumentName}.`);
}
}
/**
* Validates that two boolean options are not set at the same time.
* @internal
*/
function validateIsNotUsedTogether(optionName1, argument1, optionName2, argument2) {
if (argument1 === true && argument2 === true) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `${optionName1} and ${optionName2} cannot be used together.`);
}
}
/**
* Validates that `path` refers to a document (indicated by the fact it contains
* an even numbers of segments).
*/
function validateDocumentPath(path) {
if (!DocumentKey.isDocumentKey(path)) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Invalid document reference. Document references must have an even number of segments, but ${path} has ${path.length}.`);
}
}
/**
* Validates that `path` refers to a collection (indicated by the fact it
* contains an odd numbers of segments).
*/
function validateCollectionPath(path) {
if (DocumentKey.isDocumentKey(path)) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Invalid collection reference. Collection references must have an odd number of segments, but ${path} has ${path.length}.`);
}
}
/**
* Returns true if it's a non-null object without a custom prototype
* (i.e. excludes Array, Date, etc.).
*/
function isPlainObject(input) {
return (typeof input === 'object' &&
input !== null &&
(Object.getPrototypeOf(input) === Object.prototype ||
Object.getPrototypeOf(input) === null));
}
/** Returns a string describing the type / value of the provided input. */
function valueDescription(input) {
if (input === undefined) {
return 'undefined';
}
else if (input === null) {
return 'null';
}
else if (typeof input === 'string') {
if (input.length > 20) {
input = `${input.substring(0, 20)}...`;
}
return JSON.stringify(input);
}
else if (typeof input === 'number' || typeof input === 'boolean') {
return '' + input;
}
else if (typeof input === 'object') {
if (input instanceof Array) {
return 'an array';
}
else {
const customObjectName = tryGetCustomObjectType(input);
if (customObjectName) {
return `a custom ${customObjectName} object`;
}
else {
return 'an object';
}
}
}
else if (typeof input === 'function') {
return 'a function';
}
else {
return fail();
}
}
/** try to get the constructor name for an object. */
function tryGetCustomObjectType(input) {
if (input.constructor) {
return input.constructor.name;
}
return null;
}
/**
* Casts `obj` to `T`, optionally unwrapping Compat types to expose the
* underlying instance. Throws if `obj` is not an instance of `T`.
*
* This cast is used in the Lite and Full SDK to verify instance types for
* arguments passed to the public API.
* @internal
*/
function cast(obj,
// eslint-disable-next-line @typescript-eslint/no-explicit-any
constructor) {
if ('_delegate' in obj) {
// Unwrap Compat types
// eslint-disable-next-line @typescript-eslint/no-explicit-any
obj = obj._delegate;
}
if (!(obj instanceof constructor)) {
if (constructor.name === obj.constructor.name) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Type does not match the expected instance. Did you pass a ' +
`reference from a different Firestore SDK?`);
}
else {
const description = valueDescription(obj);
throw new FirestoreError(Code.INVALID_ARGUMENT, `Expected type '${constructor.name}', but it was: ${description}`);
}
}
return obj;
}
function validatePositiveNumber(functionName, n) {
if (n <= 0) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Function ${functionName}() requires a positive number, but it was: ${n}.`);
}
}
/**
* @license
* Copyright 2023 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.
*/
/**
* Compares two `ExperimentalLongPollingOptions` objects for equality.
*/
function longPollingOptionsEqual(options1, options2) {
return options1.timeoutSeconds === options2.timeoutSeconds;
}
/**
* Creates and returns a new `ExperimentalLongPollingOptions` with the same
* option values as the given instance.
*/
function cloneLongPollingOptions(options) {
const clone = {};
if (options.timeoutSeconds !== undefined) {
clone.timeoutSeconds = options.timeoutSeconds;
}
return clone;
}
/**
* @license
* Copyright 2023 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 value returned from the most recent invocation of
* `generateUniqueDebugId()`, or null if it has never been invoked.
*/
let lastUniqueDebugId = null;
/**
* Generates and returns an initial value for `lastUniqueDebugId`.
*
* The returned value is randomly selected from a range of integers that are
* represented as 8 hexadecimal digits. This means that (within reason) any
* numbers generated by incrementing the returned number by 1 will also be
* represented by 8 hexadecimal digits. This leads to all "IDs" having the same
* length when converted to a hexadecimal string, making reading logs containing
* these IDs easier to follow. And since the return value is randomly selected
* it will help to differentiate between logs from different executions.
*/
function generateInitialUniqueDebugId() {
const minResult = 0x10000000;
const maxResult = 0x90000000;
const resultRange = maxResult - minResult;
const resultOffset = Math.round(resultRange * Math.random());
return minResult + resultOffset;
}
/**
* Generates and returns a unique ID as a hexadecimal string.
*
* The returned ID is intended to be used in debug logging messages to help
* correlate log messages that may be spatially separated in the logs, but
* logically related. For example, a network connection could include the same
* "debug ID" string in all of its log messages to help trace a specific
* connection over time.
*
* @return the 10-character generated ID (e.g. "0xa1b2c3d4").
*/
function generateUniqueDebugId() {
if (lastUniqueDebugId === null) {
lastUniqueDebugId = generateInitialUniqueDebugId();
}
else {
lastUniqueDebugId++;
}
return '0x' + lastUniqueDebugId.toString(16);
}
/**
* @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 LOG_TAG$3 = 'RestConnection';
/**
* Maps RPC names to the corresponding REST endpoint name.
*
* We use array notation to avoid mangling.
*/
const RPC_NAME_URL_MAPPING = {};
RPC_NAME_URL_MAPPING['BatchGetDocuments'] = 'batchGet';
RPC_NAME_URL_MAPPING['Commit'] = 'commit';
RPC_NAME_URL_MAPPING['RunQuery'] = 'runQuery';
RPC_NAME_URL_MAPPING['RunAggregationQuery'] = 'runAggregationQuery';
const RPC_URL_VERSION = 'v1';
// SDK_VERSION is updated to different value at runtime depending on the entry point,
// so we need to get its value when we need it in a function.
function getGoogApiClientValue() {
return 'gl-js/ fire/' + SDK_VERSION;
}
/**
* Base class for all Rest-based connections to the backend (WebChannel and
* HTTP).
*/
class RestConnection {
constructor(databaseInfo) {
this.databaseInfo = databaseInfo;
this.databaseId = databaseInfo.databaseId;
const proto = databaseInfo.ssl ? 'https' : 'http';
const projectId = encodeURIComponent(this.databaseId.projectId);
const databaseId = encodeURIComponent(this.databaseId.database);
this.baseUrl = proto + '://' + databaseInfo.host;
this.databasePath = `projects/${projectId}/databases/${databaseId}`;
this.requestParams =
this.databaseId.database === DEFAULT_DATABASE_NAME
? `project_id=${projectId}`
: `project_id=${projectId}&database_id=${databaseId}`;
}
get shouldResourcePathBeIncludedInRequest() {
// Both `invokeRPC()` and `invokeStreamingRPC()` use their `path` arguments to determine
// where to run the query, and expect the `request` to NOT specify the "path".
return false;
}
invokeRPC(rpcName, path, req, authToken, appCheckToken) {
const streamId = generateUniqueDebugId();
const url = this.makeUrl(rpcName, path.toUriEncodedString());
logDebug(LOG_TAG$3, `Sending RPC '${rpcName}' ${streamId}:`, url, req);
const headers = {
'google-cloud-resource-prefix': this.databasePath,
'x-goog-request-params': this.requestParams
};
this.modifyHeadersForRequest(headers, authToken, appCheckToken);
return this.performRPCRequest(rpcName, url, headers, req).then(response => {
logDebug(LOG_TAG$3, `Received RPC '${rpcName}' ${streamId}: `, response);
return response;
}, (err) => {
logWarn(LOG_TAG$3, `RPC '${rpcName}' ${streamId} failed with error: `, err, 'url: ', url, 'request:', req);
throw err;
});
}
invokeStreamingRPC(rpcName, path, request, authToken, appCheckToken, expectedResponseCount) {
// The REST API automatically aggregates all of the streamed results, so we
// can just use the normal invoke() method.
return this.invokeRPC(rpcName, path, request, authToken, appCheckToken);
}
/**
* Modifies the headers for a request, adding any authorization token if
* present and any additional headers for the request.
*/
modifyHeadersForRequest(headers, authToken, appCheckToken) {
headers['X-Goog-Api-Client'] = getGoogApiClientValue();
// Content-Type: text/plain will avoid preflight requests which might
// mess with CORS and redirects by proxies. If we add custom headers
// we will need to change this code to potentially use the $httpOverwrite
// parameter supported by ESF to avoid triggering preflight requests.
headers['Content-Type'] = 'text/plain';
if (this.databaseInfo.appId) {
headers['X-Firebase-GMPID'] = this.databaseInfo.appId;
}
if (authToken) {
authToken.headers.forEach((value, key) => (headers[key] = value));
}
if (appCheckToken) {
appCheckToken.headers.forEach((value, key) => (headers[key] = value));
}
}
makeUrl(rpcName, path) {
const urlRpcName = RPC_NAME_URL_MAPPING[rpcName];
return `${this.baseUrl}/${RPC_URL_VERSION}/${path}:${urlRpcName}`;
}
/**
* Closes and cleans up any resources associated with the connection. This
* implementation is a no-op because there are no resources associated
* with the RestConnection that need to be cleaned up.
*/
terminate() {
// No-op
}
}
/**
* @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.
*/
/**
* Error Codes describing the different ways GRPC can fail. These are copied
* directly from GRPC's sources here:
*
* https://github.com/grpc/grpc/blob/bceec94ea4fc5f0085d81235d8e1c06798dc341a/include/grpc%2B%2B/impl/codegen/status_code_enum.h
*
* Important! The names of these identifiers matter because the string forms
* are used for reverse lookups from the webchannel stream. Do NOT change the
* names of these identifiers or change this into a const enum.
*/
var RpcCode;
(function (RpcCode) {
RpcCode[RpcCode["OK"] = 0] = "OK";
RpcCode[RpcCode["CANCELLED"] = 1] = "CANCELLED";
RpcCode[RpcCode["UNKNOWN"] = 2] = "UNKNOWN";
RpcCode[RpcCode["INVALID_ARGUMENT"] = 3] = "INVALID_ARGUMENT";
RpcCode[RpcCode["DEADLINE_EXCEEDED"] = 4] = "DEADLINE_EXCEEDED";
RpcCode[RpcCode["NOT_FOUND"] = 5] = "NOT_FOUND";
RpcCode[RpcCode["ALREADY_EXISTS"] = 6] = "ALREADY_EXISTS";
RpcCode[RpcCode["PERMISSION_DENIED"] = 7] = "PERMISSION_DENIED";
RpcCode[RpcCode["UNAUTHENTICATED"] = 16] = "UNAUTHENTICATED";
RpcCode[RpcCode["RESOURCE_EXHAUSTED"] = 8] = "RESOURCE_EXHAUSTED";
RpcCode[RpcCode["FAILED_PRECONDITION"] = 9] = "FAILED_PRECONDITION";
RpcCode[RpcCode["ABORTED"] = 10] = "ABORTED";
RpcCode[RpcCode["OUT_OF_RANGE"] = 11] = "OUT_OF_RANGE";
RpcCode[RpcCode["UNIMPLEMENTED"] = 12] = "UNIMPLEMENTED";
RpcCode[RpcCode["INTERNAL"] = 13] = "INTERNAL";
RpcCode[RpcCode["UNAVAILABLE"] = 14] = "UNAVAILABLE";
RpcCode[RpcCode["DATA_LOSS"] = 15] = "DATA_LOSS";
})(RpcCode || (RpcCode = {}));
/**
* Determines whether an error code represents a permanent error when received
* in response to a non-write operation.
*
* See isPermanentWriteError for classifying write errors.
*/
function isPermanentError(code) {
switch (code) {
case Code.OK:
return fail();
case Code.CANCELLED:
case Code.UNKNOWN:
case Code.DEADLINE_EXCEEDED:
case Code.RESOURCE_EXHAUSTED:
case Code.INTERNAL:
case Code.UNAVAILABLE:
// Unauthenticated means something went wrong with our token and we need
// to retry with new credentials which will happen automatically.
case Code.UNAUTHENTICATED:
return false;
case Code.INVALID_ARGUMENT:
case Code.NOT_FOUND:
case Code.ALREADY_EXISTS:
case Code.PERMISSION_DENIED:
case Code.FAILED_PRECONDITION:
// Aborted might be retried in some scenarios, but that is dependant on
// the context and should handled individually by the calling code.
// See https://cloud.google.com/apis/design/errors.
case Code.ABORTED:
case Code.OUT_OF_RANGE:
case Code.UNIMPLEMENTED:
case Code.DATA_LOSS:
return true;
default:
return fail();
}
}
/**
* Converts an HTTP Status Code to the equivalent error code.
*
* @param status - An HTTP Status Code, like 200, 404, 503, etc.
* @returns The equivalent Code. Unknown status codes are mapped to
* Code.UNKNOWN.
*/
function mapCodeFromHttpStatus(status) {
if (status === undefined) {
logError('RPC_ERROR', 'HTTP error has no status');
return Code.UNKNOWN;
}
// The canonical error codes for Google APIs [1] specify mapping onto HTTP
// status codes but the mapping is not bijective. In each case of ambiguity
// this function chooses a primary error.
//
// [1]
// https://github.com/googleapis/googleapis/blob/master/google/rpc/code.proto
switch (status) {
case 200: // OK
return Code.OK;
case 400: // Bad Request
return Code.FAILED_PRECONDITION;
// Other possibilities based on the forward mapping
// return Code.INVALID_ARGUMENT;
// return Code.OUT_OF_RANGE;
case 401: // Unauthorized
return Code.UNAUTHENTICATED;
case 403: // Forbidden
return Code.PERMISSION_DENIED;
case 404: // Not Found
return Code.NOT_FOUND;
case 409: // Conflict
return Code.ABORTED;
// Other possibilities:
// return Code.ALREADY_EXISTS;
case 416: // Range Not Satisfiable
return Code.OUT_OF_RANGE;
case 429: // Too Many Requests
return Code.RESOURCE_EXHAUSTED;
case 499: // Client Closed Request
return Code.CANCELLED;
case 500: // Internal Server Error
return Code.UNKNOWN;
// Other possibilities:
// return Code.INTERNAL;
// return Code.DATA_LOSS;
case 501: // Unimplemented
return Code.UNIMPLEMENTED;
case 503: // Service Unavailable
return Code.UNAVAILABLE;
case 504: // Gateway Timeout
return Code.DEADLINE_EXCEEDED;
default:
if (status >= 200 && status < 300) {
return Code.OK;
}
if (status >= 400 && status < 500) {
return Code.FAILED_PRECONDITION;
}
if (status >= 500 && status < 600) {
return Code.INTERNAL;
}
return Code.UNKNOWN;
}
}
/**
* @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 Rest-based connection that relies on the native HTTP stack
* (e.g. `fetch` or a polyfill).
*/
class FetchConnection extends RestConnection {
/**
* @param databaseInfo - The connection info.
* @param fetchImpl - `fetch` or a Polyfill that implements the fetch API.
*/
constructor(databaseInfo, fetchImpl) {
super(databaseInfo);
this.fetchImpl = fetchImpl;
}
openStream(rpcName, token) {
throw new Error('Not supported by FetchConnection');
}
async performRPCRequest(rpcName, url, headers, body) {
var _a;
const requestJson = JSON.stringify(body);
let response;
try {
response = await this.fetchImpl(url, {
method: 'POST',
headers,
body: requestJson
});
}
catch (e) {
const err = e;
throw new FirestoreError(mapCodeFromHttpStatus(err.status), 'Request failed with error: ' + err.statusText);
}
if (!response.ok) {
let errorResponse = await response.json();
if (Array.isArray(errorResponse)) {
errorResponse = errorResponse[0];
}
const errorMessage = (_a = errorResponse === null || errorResponse === void 0 ? void 0 : errorResponse.error) === null || _a === void 0 ? void 0 : _a.message;
throw new FirestoreError(mapCodeFromHttpStatus(response.status), `Request failed with error: ${errorMessage !== null && errorMessage !== void 0 ? errorMessage : response.statusText}`);
}
return response.json();
}
}
/**
* @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.
*/
/** Initializes the HTTP connection for the REST API. */
function newConnection(databaseInfo) {
// undici is meant to be API compatible with `fetch`, but its type doesn't
// match 100%.
// eslint-disable-next-line @typescript-eslint/no-explicit-any
return new FetchConnection(databaseInfo, undici.fetch);
}
/**
* @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.
*/
/**
* Generates `nBytes` of random bytes.
*
* If `nBytes < 0` , an error will be thrown.
*/
function randomBytes(nBytes) {
return crypto.randomBytes(nBytes);
}
/**
* @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 utility class for generating unique alphanumeric IDs of a specified length.
*
* @internal
* Exported internally for testing purposes.
*/
class AutoId {
static newId() {
// Alphanumeric characters
const chars = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789';
// The largest byte value that is a multiple of `char.length`.
const maxMultiple = Math.floor(256 / chars.length) * chars.length;
let autoId = '';
const targetLength = 20;
while (autoId.length < targetLength) {
const bytes = randomBytes(40);
for (let i = 0; i < bytes.length; ++i) {
// Only accept values that are [0, maxMultiple), this ensures they can
// be evenly mapped to indices of `chars` via a modulo operation.
if (autoId.length < targetLength && bytes[i] < maxMultiple) {
autoId += chars.charAt(bytes[i] % chars.length);
}
}
}
return autoId;
}
}
function primitiveComparator(left, right) {
if (left < right) {
return -1;
}
if (left > right) {
return 1;
}
return 0;
}
/** Helper to compare arrays using isEqual(). */
function arrayEquals(left, right, comparator) {
if (left.length !== right.length) {
return false;
}
return left.every((value, index) => comparator(value, right[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.
*/
function objectSize(obj) {
let count = 0;
for (const key in obj) {
if (Object.prototype.hasOwnProperty.call(obj, key)) {
count++;
}
}
return count;
}
function forEach(obj, fn) {
for (const key in obj) {
if (Object.prototype.hasOwnProperty.call(obj, key)) {
fn(key, obj[key]);
}
}
}
function mapToArray(obj, fn) {
const result = [];
for (const key in obj) {
if (Object.prototype.hasOwnProperty.call(obj, key)) {
result.push(fn(obj[key], key, obj));
}
}
return result;
}
function isEmpty(obj) {
for (const key in obj) {
if (Object.prototype.hasOwnProperty.call(obj, key)) {
return false;
}
}
return 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.
*/
/**
* Returns whether a variable is either undefined or null.
*/
function isNullOrUndefined(value) {
return value === null || value === undefined;
}
/** Returns whether the value represents -0. */
function isNegativeZero(value) {
// Detect if the value is -0.0. Based on polyfill from
// https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Object/is
return value === 0 && 1 / value === 1 / -0;
}
/**
* Returns whether a value is an integer and in the safe integer range
* @param value - The value to test for being an integer and in the safe range
*/
function isSafeInteger(value) {
return (typeof value === 'number' &&
Number.isInteger(value) &&
!isNegativeZero(value) &&
value <= Number.MAX_SAFE_INTEGER &&
value >= Number.MIN_SAFE_INTEGER);
}
/**
* @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.
*/
/** Converts a Base64 encoded string to a binary string. */
function decodeBase64(encoded) {
// Note: We used to validate the base64 string here via a regular expression.
// This was removed to improve the performance of indexing.
return Buffer.from(encoded, 'base64').toString('binary');
}
/** Converts a binary string to a Base64 encoded string. */
function encodeBase64(raw) {
return Buffer.from(raw, 'binary').toString('base64');
}
/**
* @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.
*/
/**
* Immutable class that represents a "proto" byte string.
*
* Proto byte strings can either be Base64-encoded strings or Uint8Arrays when
* sent on the wire. This class abstracts away this differentiation by holding
* the proto byte string in a common class that must be converted into a string
* before being sent as a proto.
* @internal
*/
class ByteString {
constructor(binaryString) {
this.binaryString = binaryString;
}
static fromBase64String(base64) {
const binaryString = decodeBase64(base64);
return new ByteString(binaryString);
}
static fromUint8Array(array) {
// TODO(indexing); Remove the copy of the byte string here as this method
// is frequently called during indexing.
const binaryString = binaryStringFromUint8Array(array);
return new ByteString(binaryString);
}
[Symbol.iterator]() {
let i = 0;
return {
next: () => {
if (i < this.binaryString.length) {
return { value: this.binaryString.charCodeAt(i++), done: false };
}
else {
return { value: undefined, done: true };
}
}
};
}
toBase64() {
return encodeBase64(this.binaryString);
}
toUint8Array() {
return uint8ArrayFromBinaryString(this.binaryString);
}
approximateByteSize() {
return this.binaryString.length * 2;
}
compareTo(other) {
return primitiveComparator(this.binaryString, other.binaryString);
}
isEqual(other) {
return this.binaryString === other.binaryString;
}
}
ByteString.EMPTY_BYTE_STRING = new ByteString('');
/**
* Helper function to convert an Uint8array to a binary string.
*/
function binaryStringFromUint8Array(array) {
let binaryString = '';
for (let i = 0; i < array.length; ++i) {
binaryString += String.fromCharCode(array[i]);
}
return binaryString;
}
/**
* Helper function to convert a binary string to an Uint8Array.
*/
function uint8ArrayFromBinaryString(binaryString) {
const buffer = new Uint8Array(binaryString.length);
for (let i = 0; i < binaryString.length; i++) {
buffer[i] = binaryString.charCodeAt(i);
}
return buffer;
}
/**
* @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 RegExp matching ISO 8601 UTC timestamps with optional fraction.
const ISO_TIMESTAMP_REG_EXP = new RegExp(/^\d{4}-\d\d-\d\dT\d\d:\d\d:\d\d(?:\.(\d+))?Z$/);
/**
* Converts the possible Proto values for a timestamp value into a "seconds and
* nanos" representation.
*/
function normalizeTimestamp(date) {
hardAssert(!!date);
// The json interface (for the browser) will return an iso timestamp string,
// while the proto js library (for node) will return a
// google.protobuf.Timestamp instance.
if (typeof date === 'string') {
// The date string can have higher precision (nanos) than the Date class
// (millis), so we do some custom parsing here.
// Parse the nanos right out of the string.
let nanos = 0;
const fraction = ISO_TIMESTAMP_REG_EXP.exec(date);
hardAssert(!!fraction);
if (fraction[1]) {
// Pad the fraction out to 9 digits (nanos).
let nanoStr = fraction[1];
nanoStr = (nanoStr + '000000000').substr(0, 9);
nanos = Number(nanoStr);
}
// Parse the date to get the seconds.
const parsedDate = new Date(date);
const seconds = Math.floor(parsedDate.getTime() / 1000);
return { seconds, nanos };
}
else {
// TODO(b/37282237): Use strings for Proto3 timestamps
// assert(!this.options.useProto3Json,
// 'The timestamp instance format requires Proto JS.');
const seconds = normalizeNumber(date.seconds);
const nanos = normalizeNumber(date.nanos);
return { seconds, nanos };
}
}
/**
* Converts the possible Proto types for numbers into a JavaScript number.
* Returns 0 if the value is not numeric.
*/
function normalizeNumber(value) {
// TODO(bjornick): Handle int64 greater than 53 bits.
if (typeof value === 'number') {
return value;
}
else if (typeof value === 'string') {
return Number(value);
}
else {
return 0;
}
}
/** Converts the possible Proto types for Blobs into a ByteString. */
function normalizeByteString(blob) {
if (typeof blob === 'string') {
return ByteString.fromBase64String(blob);
}
else {
return ByteString.fromUint8Array(blob);
}
}
/**
* @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 earliest date supported by Firestore timestamps (0001-01-01T00:00:00Z).
const MIN_SECONDS = -62135596800;
// Number of nanoseconds in a millisecond.
const MS_TO_NANOS = 1e6;
/**
* A `Timestamp` represents a point in time independent of any time zone or
* calendar, represented as seconds and fractions of seconds at nanosecond
* resolution in UTC Epoch time.
*
* It is encoded using the Proleptic Gregorian Calendar which extends the
* Gregorian calendar backwards to year one. It is encoded assuming all minutes
* are 60 seconds long, i.e. leap seconds are "smeared" so that no leap second
* table is needed for interpretation. Range is from 0001-01-01T00:00:00Z to
* 9999-12-31T23:59:59.999999999Z.
*
* For examples and further specifications, refer to the
* {@link https://github.com/google/protobuf/blob/master/src/google/protobuf/timestamp.proto | Timestamp definition}.
*/
class Timestamp {
/**
* Creates a new timestamp.
*
* @param seconds - The number of seconds of UTC time since Unix epoch
* 1970-01-01T00:00:00Z. Must be from 0001-01-01T00:00:00Z to
* 9999-12-31T23:59:59Z inclusive.
* @param nanoseconds - The non-negative fractions of a second at nanosecond
* resolution. Negative second values with fractions must still have
* non-negative nanoseconds values that count forward in time. Must be
* from 0 to 999,999,999 inclusive.
*/
constructor(
/**
* The number of seconds of UTC time since Unix epoch 1970-01-01T00:00:00Z.
*/
seconds,
/**
* The fractions of a second at nanosecond resolution.*
*/
nanoseconds) {
this.seconds = seconds;
this.nanoseconds = nanoseconds;
if (nanoseconds < 0) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Timestamp nanoseconds out of range: ' + nanoseconds);
}
if (nanoseconds >= 1e9) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Timestamp nanoseconds out of range: ' + nanoseconds);
}
if (seconds < MIN_SECONDS) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Timestamp seconds out of range: ' + seconds);
}
// This will break in the year 10,000.
if (seconds >= 253402300800) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Timestamp seconds out of range: ' + seconds);
}
}
/**
* Creates a new timestamp with the current date, with millisecond precision.
*
* @returns a new timestamp representing the current date.
*/
static now() {
return Timestamp.fromMillis(Date.now());
}
/**
* Creates a new timestamp from the given date.
*
* @param date - The date to initialize the `Timestamp` from.
* @returns A new `Timestamp` representing the same point in time as the given
* date.
*/
static fromDate(date) {
return Timestamp.fromMillis(date.getTime());
}
/**
* Creates a new timestamp from the given number of milliseconds.
*
* @param milliseconds - Number of milliseconds since Unix epoch
* 1970-01-01T00:00:00Z.
* @returns A new `Timestamp` representing the same point in time as the given
* number of milliseconds.
*/
static fromMillis(milliseconds) {
const seconds = Math.floor(milliseconds / 1000);
const nanos = Math.floor((milliseconds - seconds * 1000) * MS_TO_NANOS);
return new Timestamp(seconds, nanos);
}
/**
* Converts a `Timestamp` to a JavaScript `Date` object. This conversion
* causes a loss of precision since `Date` objects only support millisecond
* precision.
*
* @returns JavaScript `Date` object representing the same point in time as
* this `Timestamp`, with millisecond precision.
*/
toDate() {
return new Date(this.toMillis());
}
/**
* Converts a `Timestamp` to a numeric timestamp (in milliseconds since
* epoch). This operation causes a loss of precision.
*
* @returns The point in time corresponding to this timestamp, represented as
* the number of milliseconds since Unix epoch 1970-01-01T00:00:00Z.
*/
toMillis() {
return this.seconds * 1000 + this.nanoseconds / MS_TO_NANOS;
}
_compareTo(other) {
if (this.seconds === other.seconds) {
return primitiveComparator(this.nanoseconds, other.nanoseconds);
}
return primitiveComparator(this.seconds, other.seconds);
}
/**
* Returns true if this `Timestamp` is equal to the provided one.
*
* @param other - The `Timestamp` to compare against.
* @returns true if this `Timestamp` is equal to the provided one.
*/
isEqual(other) {
return (other.seconds === this.seconds && other.nanoseconds === this.nanoseconds);
}
/** Returns a textual representation of this `Timestamp`. */
toString() {
return ('Timestamp(seconds=' +
this.seconds +
', nanoseconds=' +
this.nanoseconds +
')');
}
/** Returns a JSON-serializable representation of this `Timestamp`. */
toJSON() {
return { seconds: this.seconds, nanoseconds: this.nanoseconds };
}
/**
* Converts this object to a primitive string, which allows `Timestamp` objects
* to be compared using the `>`, `<=`, `>=` and `>` operators.
*/
valueOf() {
// This method returns a string of the form <seconds>.<nanoseconds> where
// <seconds> is translated to have a non-negative value and both <seconds>
// and <nanoseconds> are left-padded with zeroes to be a consistent length.
// Strings with this format then have a lexiographical ordering that matches
// the expected ordering. The <seconds> translation is done to avoid having
// a leading negative sign (i.e. a leading '-' character) in its string
// representation, which would affect its lexiographical ordering.
const adjustedSeconds = this.seconds - MIN_SECONDS;
// Note: Up to 12 decimal digits are required to represent all valid
// 'seconds' values.
const formattedSeconds = String(adjustedSeconds).padStart(12, '0');
const formattedNanoseconds = String(this.nanoseconds).padStart(9, '0');
return formattedSeconds + '.' + formattedNanoseconds;
}
}
/**
* @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.
*/
/**
* Represents a locally-applied ServerTimestamp.
*
* Server Timestamps are backed by MapValues that contain an internal field
* `__type__` with a value of `server_timestamp`. The previous value and local
* write time are stored in its `__previous_value__` and `__local_write_time__`
* fields respectively.
*
* Notes:
* - ServerTimestampValue instances are created as the result of applying a
* transform. They can only exist in the local view of a document. Therefore
* they do not need to be parsed or serialized.
* - When evaluated locally (e.g. for snapshot.data()), they by default
* evaluate to `null`. This behavior can be configured by passing custom
* FieldValueOptions to value().
* - With respect to other ServerTimestampValues, they sort by their
* localWriteTime.
*/
const SERVER_TIMESTAMP_SENTINEL = 'server_timestamp';
const TYPE_KEY = '__type__';
const PREVIOUS_VALUE_KEY = '__previous_value__';
const LOCAL_WRITE_TIME_KEY = '__local_write_time__';
function isServerTimestamp(value) {
var _a, _b;
const type = (_b = (((_a = value === null || value === void 0 ? void 0 : value.mapValue) === null || _a === void 0 ? void 0 : _a.fields) || {})[TYPE_KEY]) === null || _b === void 0 ? void 0 : _b.stringValue;
return type === SERVER_TIMESTAMP_SENTINEL;
}
/**
* Returns the value of the field before this ServerTimestamp was set.
*
* Preserving the previous values allows the user to display the last resoled
* value until the backend responds with the timestamp.
*/
function getPreviousValue(value) {
const previousValue = value.mapValue.fields[PREVIOUS_VALUE_KEY];
if (isServerTimestamp(previousValue)) {
return getPreviousValue(previousValue);
}
return previousValue;
}
/**
* Returns the local time at which this timestamp was first set.
*/
function getLocalWriteTime(value) {
const localWriteTime = normalizeTimestamp(value.mapValue.fields[LOCAL_WRITE_TIME_KEY].timestampValue);
return new Timestamp(localWriteTime.seconds, localWriteTime.nanos);
}
/**
* @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 MAX_VALUE_TYPE = '__max__';
const MAX_VALUE = {
mapValue: {
fields: {
'__type__': { stringValue: MAX_VALUE_TYPE }
}
}
};
/** Extracts the backend's type order for the provided value. */
function typeOrder(value) {
if ('nullValue' in value) {
return 0 /* TypeOrder.NullValue */;
}
else if ('booleanValue' in value) {
return 1 /* TypeOrder.BooleanValue */;
}
else if ('integerValue' in value || 'doubleValue' in value) {
return 2 /* TypeOrder.NumberValue */;
}
else if ('timestampValue' in value) {
return 3 /* TypeOrder.TimestampValue */;
}
else if ('stringValue' in value) {
return 5 /* TypeOrder.StringValue */;
}
else if ('bytesValue' in value) {
return 6 /* TypeOrder.BlobValue */;
}
else if ('referenceValue' in value) {
return 7 /* TypeOrder.RefValue */;
}
else if ('geoPointValue' in value) {
return 8 /* TypeOrder.GeoPointValue */;
}
else if ('arrayValue' in value) {
return 9 /* TypeOrder.ArrayValue */;
}
else if ('mapValue' in value) {
if (isServerTimestamp(value)) {
return 4 /* TypeOrder.ServerTimestampValue */;
}
else if (isMaxValue(value)) {
return 9007199254740991 /* TypeOrder.MaxValue */;
}
return 10 /* TypeOrder.ObjectValue */;
}
else {
return fail();
}
}
/** Tests `left` and `right` for equality based on the backend semantics. */
function valueEquals(left, right) {
if (left === right) {
return true;
}
const leftType = typeOrder(left);
const rightType = typeOrder(right);
if (leftType !== rightType) {
return false;
}
switch (leftType) {
case 0 /* TypeOrder.NullValue */:
return true;
case 1 /* TypeOrder.BooleanValue */:
return left.booleanValue === right.booleanValue;
case 4 /* TypeOrder.ServerTimestampValue */:
return getLocalWriteTime(left).isEqual(getLocalWriteTime(right));
case 3 /* TypeOrder.TimestampValue */:
return timestampEquals(left, right);
case 5 /* TypeOrder.StringValue */:
return left.stringValue === right.stringValue;
case 6 /* TypeOrder.BlobValue */:
return blobEquals(left, right);
case 7 /* TypeOrder.RefValue */:
return left.referenceValue === right.referenceValue;
case 8 /* TypeOrder.GeoPointValue */:
return geoPointEquals(left, right);
case 2 /* TypeOrder.NumberValue */:
return numberEquals(left, right);
case 9 /* TypeOrder.ArrayValue */:
return arrayEquals(left.arrayValue.values || [], right.arrayValue.values || [], valueEquals);
case 10 /* TypeOrder.ObjectValue */:
return objectEquals(left, right);
case 9007199254740991 /* TypeOrder.MaxValue */:
return true;
default:
return fail();
}
}
function timestampEquals(left, right) {
if (typeof left.timestampValue === 'string' &&
typeof right.timestampValue === 'string' &&
left.timestampValue.length === right.timestampValue.length) {
// Use string equality for ISO 8601 timestamps
return left.timestampValue === right.timestampValue;
}
const leftTimestamp = normalizeTimestamp(left.timestampValue);
const rightTimestamp = normalizeTimestamp(right.timestampValue);
return (leftTimestamp.seconds === rightTimestamp.seconds &&
leftTimestamp.nanos === rightTimestamp.nanos);
}
function geoPointEquals(left, right) {
return (normalizeNumber(left.geoPointValue.latitude) ===
normalizeNumber(right.geoPointValue.latitude) &&
normalizeNumber(left.geoPointValue.longitude) ===
normalizeNumber(right.geoPointValue.longitude));
}
function blobEquals(left, right) {
return normalizeByteString(left.bytesValue).isEqual(normalizeByteString(right.bytesValue));
}
function numberEquals(left, right) {
if ('integerValue' in left && 'integerValue' in right) {
return (normalizeNumber(left.integerValue) === normalizeNumber(right.integerValue));
}
else if ('doubleValue' in left && 'doubleValue' in right) {
const n1 = normalizeNumber(left.doubleValue);
const n2 = normalizeNumber(right.doubleValue);
if (n1 === n2) {
return isNegativeZero(n1) === isNegativeZero(n2);
}
else {
return isNaN(n1) && isNaN(n2);
}
}
return false;
}
function objectEquals(left, right) {
const leftMap = left.mapValue.fields || {};
const rightMap = right.mapValue.fields || {};
if (objectSize(leftMap) !== objectSize(rightMap)) {
return false;
}
for (const key in leftMap) {
if (leftMap.hasOwnProperty(key)) {
if (rightMap[key] === undefined ||
!valueEquals(leftMap[key], rightMap[key])) {
return false;
}
}
}
return true;
}
/** Returns true if the ArrayValue contains the specified element. */
function arrayValueContains(haystack, needle) {
return ((haystack.values || []).find(v => valueEquals(v, needle)) !== undefined);
}
function valueCompare(left, right) {
if (left === right) {
return 0;
}
const leftType = typeOrder(left);
const rightType = typeOrder(right);
if (leftType !== rightType) {
return primitiveComparator(leftType, rightType);
}
switch (leftType) {
case 0 /* TypeOrder.NullValue */:
case 9007199254740991 /* TypeOrder.MaxValue */:
return 0;
case 1 /* TypeOrder.BooleanValue */:
return primitiveComparator(left.booleanValue, right.booleanValue);
case 2 /* TypeOrder.NumberValue */:
return compareNumbers(left, right);
case 3 /* TypeOrder.TimestampValue */:
return compareTimestamps(left.timestampValue, right.timestampValue);
case 4 /* TypeOrder.ServerTimestampValue */:
return compareTimestamps(getLocalWriteTime(left), getLocalWriteTime(right));
case 5 /* TypeOrder.StringValue */:
return primitiveComparator(left.stringValue, right.stringValue);
case 6 /* TypeOrder.BlobValue */:
return compareBlobs(left.bytesValue, right.bytesValue);
case 7 /* TypeOrder.RefValue */:
return compareReferences(left.referenceValue, right.referenceValue);
case 8 /* TypeOrder.GeoPointValue */:
return compareGeoPoints(left.geoPointValue, right.geoPointValue);
case 9 /* TypeOrder.ArrayValue */:
return compareArrays(left.arrayValue, right.arrayValue);
case 10 /* TypeOrder.ObjectValue */:
return compareMaps(left.mapValue, right.mapValue);
default:
throw fail();
}
}
function compareNumbers(left, right) {
const leftNumber = normalizeNumber(left.integerValue || left.doubleValue);
const rightNumber = normalizeNumber(right.integerValue || right.doubleValue);
if (leftNumber < rightNumber) {
return -1;
}
else if (leftNumber > rightNumber) {
return 1;
}
else if (leftNumber === rightNumber) {
return 0;
}
else {
// one or both are NaN.
if (isNaN(leftNumber)) {
return isNaN(rightNumber) ? 0 : -1;
}
else {
return 1;
}
}
}
function compareTimestamps(left, right) {
if (typeof left === 'string' &&
typeof right === 'string' &&
left.length === right.length) {
return primitiveComparator(left, right);
}
const leftTimestamp = normalizeTimestamp(left);
const rightTimestamp = normalizeTimestamp(right);
const comparison = primitiveComparator(leftTimestamp.seconds, rightTimestamp.seconds);
if (comparison !== 0) {
return comparison;
}
return primitiveComparator(leftTimestamp.nanos, rightTimestamp.nanos);
}
function compareReferences(leftPath, rightPath) {
const leftSegments = leftPath.split('/');
const rightSegments = rightPath.split('/');
for (let i = 0; i < leftSegments.length && i < rightSegments.length; i++) {
const comparison = primitiveComparator(leftSegments[i], rightSegments[i]);
if (comparison !== 0) {
return comparison;
}
}
return primitiveComparator(leftSegments.length, rightSegments.length);
}
function compareGeoPoints(left, right) {
const comparison = primitiveComparator(normalizeNumber(left.latitude), normalizeNumber(right.latitude));
if (comparison !== 0) {
return comparison;
}
return primitiveComparator(normalizeNumber(left.longitude), normalizeNumber(right.longitude));
}
function compareBlobs(left, right) {
const leftBytes = normalizeByteString(left);
const rightBytes = normalizeByteString(right);
return leftBytes.compareTo(rightBytes);
}
function compareArrays(left, right) {
const leftArray = left.values || [];
const rightArray = right.values || [];
for (let i = 0; i < leftArray.length && i < rightArray.length; ++i) {
const compare = valueCompare(leftArray[i], rightArray[i]);
if (compare) {
return compare;
}
}
return primitiveComparator(leftArray.length, rightArray.length);
}
function compareMaps(left, right) {
if (left === MAX_VALUE.mapValue && right === MAX_VALUE.mapValue) {
return 0;
}
else if (left === MAX_VALUE.mapValue) {
return 1;
}
else if (right === MAX_VALUE.mapValue) {
return -1;
}
const leftMap = left.fields || {};
const leftKeys = Object.keys(leftMap);
const rightMap = right.fields || {};
const rightKeys = Object.keys(rightMap);
// Even though MapValues are likely sorted correctly based on their insertion
// order (e.g. when received from the backend), local modifications can bring
// elements out of order. We need to re-sort the elements to ensure that
// canonical IDs are independent of insertion order.
leftKeys.sort();
rightKeys.sort();
for (let i = 0; i < leftKeys.length && i < rightKeys.length; ++i) {
const keyCompare = primitiveComparator(leftKeys[i], rightKeys[i]);
if (keyCompare !== 0) {
return keyCompare;
}
const compare = valueCompare(leftMap[leftKeys[i]], rightMap[rightKeys[i]]);
if (compare !== 0) {
return compare;
}
}
return primitiveComparator(leftKeys.length, rightKeys.length);
}
/** Returns a reference value for the provided database and key. */
function refValue(databaseId, key) {
return {
referenceValue: `projects/${databaseId.projectId}/databases/${databaseId.database}/documents/${key.path.canonicalString()}`
};
}
/** Returns true if `value` is an ArrayValue. */
function isArray(value) {
return !!value && 'arrayValue' in value;
}
/** Returns true if `value` is a NullValue. */
function isNullValue(value) {
return !!value && 'nullValue' in value;
}
/** Returns true if `value` is NaN. */
function isNanValue(value) {
return !!value && 'doubleValue' in value && isNaN(Number(value.doubleValue));
}
/** Returns true if `value` is a MapValue. */
function isMapValue(value) {
return !!value && 'mapValue' in value;
}
/** Creates a deep copy of `source`. */
function deepClone(source) {
if (source.geoPointValue) {
return { geoPointValue: Object.assign({}, source.geoPointValue) };
}
else if (source.timestampValue &&
typeof source.timestampValue === 'object') {
return { timestampValue: Object.assign({}, source.timestampValue) };
}
else if (source.mapValue) {
const target = { mapValue: { fields: {} } };
forEach(source.mapValue.fields, (key, val) => (target.mapValue.fields[key] = deepClone(val)));
return target;
}
else if (source.arrayValue) {
const target = { arrayValue: { values: [] } };
for (let i = 0; i < (source.arrayValue.values || []).length; ++i) {
target.arrayValue.values[i] = deepClone(source.arrayValue.values[i]);
}
return target;
}
else {
return Object.assign({}, source);
}
}
/** Returns true if the Value represents the canonical {@link #MAX_VALUE} . */
function isMaxValue(value) {
return ((((value.mapValue || {}).fields || {})['__type__'] || {}).stringValue ===
MAX_VALUE_TYPE);
}
/**
* @license
* Copyright 2022 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.
*/
/**
* Represents a bound of a query.
*
* The bound is specified with the given components representing a position and
* whether it's just before or just after the position (relative to whatever the
* query order is).
*
* The position represents a logical index position for a query. It's a prefix
* of values for the (potentially implicit) order by clauses of a query.
*
* Bound provides a function to determine whether a document comes before or
* after a bound. This is influenced by whether the position is just before or
* just after the provided values.
*/
class Bound {
constructor(position, inclusive) {
this.position = position;
this.inclusive = inclusive;
}
}
function boundEquals(left, right) {
if (left === null) {
return right === null;
}
else if (right === null) {
return false;
}
if (left.inclusive !== right.inclusive ||
left.position.length !== right.position.length) {
return false;
}
for (let i = 0; i < left.position.length; i++) {
const leftPosition = left.position[i];
const rightPosition = right.position[i];
if (!valueEquals(leftPosition, rightPosition)) {
return false;
}
}
return true;
}
/**
* @license
* Copyright 2022 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 Filter {
}
class FieldFilter extends Filter {
constructor(field, op, value) {
super();
this.field = field;
this.op = op;
this.value = value;
}
/**
* Creates a filter based on the provided arguments.
*/
static create(field, op, value) {
if (field.isKeyField()) {
if (op === "in" /* Operator.IN */ || op === "not-in" /* Operator.NOT_IN */) {
return this.createKeyFieldInFilter(field, op, value);
}
else {
return new KeyFieldFilter(field, op, value);
}
}
else if (op === "array-contains" /* Operator.ARRAY_CONTAINS */) {
return new ArrayContainsFilter(field, value);
}
else if (op === "in" /* Operator.IN */) {
return new InFilter(field, value);
}
else if (op === "not-in" /* Operator.NOT_IN */) {
return new NotInFilter(field, value);
}
else if (op === "array-contains-any" /* Operator.ARRAY_CONTAINS_ANY */) {
return new ArrayContainsAnyFilter(field, value);
}
else {
return new FieldFilter(field, op, value);
}
}
static createKeyFieldInFilter(field, op, value) {
return op === "in" /* Operator.IN */
? new KeyFieldInFilter(field, value)
: new KeyFieldNotInFilter(field, value);
}
matches(doc) {
const other = doc.data.field(this.field);
// Types do not have to match in NOT_EQUAL filters.
if (this.op === "!=" /* Operator.NOT_EQUAL */) {
return (other !== null &&
this.matchesComparison(valueCompare(other, this.value)));
}
// Only compare types with matching backend order (such as double and int).
return (other !== null &&
typeOrder(this.value) === typeOrder(other) &&
this.matchesComparison(valueCompare(other, this.value)));
}
matchesComparison(comparison) {
switch (this.op) {
case "<" /* Operator.LESS_THAN */:
return comparison < 0;
case "<=" /* Operator.LESS_THAN_OR_EQUAL */:
return comparison <= 0;
case "==" /* Operator.EQUAL */:
return comparison === 0;
case "!=" /* Operator.NOT_EQUAL */:
return comparison !== 0;
case ">" /* Operator.GREATER_THAN */:
return comparison > 0;
case ">=" /* Operator.GREATER_THAN_OR_EQUAL */:
return comparison >= 0;
default:
return fail();
}
}
isInequality() {
return ([
"<" /* Operator.LESS_THAN */,
"<=" /* Operator.LESS_THAN_OR_EQUAL */,
">" /* Operator.GREATER_THAN */,
">=" /* Operator.GREATER_THAN_OR_EQUAL */,
"!=" /* Operator.NOT_EQUAL */,
"not-in" /* Operator.NOT_IN */
].indexOf(this.op) >= 0);
}
getFlattenedFilters() {
return [this];
}
getFilters() {
return [this];
}
}
class CompositeFilter extends Filter {
constructor(filters, op) {
super();
this.filters = filters;
this.op = op;
this.memoizedFlattenedFilters = null;
}
/**
* Creates a filter based on the provided arguments.
*/
static create(filters, op) {
return new CompositeFilter(filters, op);
}
matches(doc) {
if (compositeFilterIsConjunction(this)) {
// For conjunctions, all filters must match, so return false if any filter doesn't match.
return this.filters.find(filter => !filter.matches(doc)) === undefined;
}
else {
// For disjunctions, at least one filter should match.
return this.filters.find(filter => filter.matches(doc)) !== undefined;
}
}
getFlattenedFilters() {
if (this.memoizedFlattenedFilters !== null) {
return this.memoizedFlattenedFilters;
}
this.memoizedFlattenedFilters = this.filters.reduce((result, subfilter) => {
return result.concat(subfilter.getFlattenedFilters());
}, []);
return this.memoizedFlattenedFilters;
}
// Returns a mutable copy of `this.filters`
getFilters() {
return Object.assign([], this.filters);
}
}
function compositeFilterIsConjunction(compositeFilter) {
return compositeFilter.op === "and" /* CompositeOperator.AND */;
}
function filterEquals(f1, f2) {
if (f1 instanceof FieldFilter) {
return fieldFilterEquals(f1, f2);
}
else if (f1 instanceof CompositeFilter) {
return compositeFilterEquals(f1, f2);
}
else {
fail();
}
}
function fieldFilterEquals(f1, f2) {
return (f2 instanceof FieldFilter &&
f1.op === f2.op &&
f1.field.isEqual(f2.field) &&
valueEquals(f1.value, f2.value));
}
function compositeFilterEquals(f1, f2) {
if (f2 instanceof CompositeFilter &&
f1.op === f2.op &&
f1.filters.length === f2.filters.length) {
const subFiltersMatch = f1.filters.reduce((result, f1Filter, index) => result && filterEquals(f1Filter, f2.filters[index]), true);
return subFiltersMatch;
}
return false;
}
/** Filter that matches on key fields (i.e. '__name__'). */
class KeyFieldFilter extends FieldFilter {
constructor(field, op, value) {
super(field, op, value);
this.key = DocumentKey.fromName(value.referenceValue);
}
matches(doc) {
const comparison = DocumentKey.comparator(doc.key, this.key);
return this.matchesComparison(comparison);
}
}
/** Filter that matches on key fields within an array. */
class KeyFieldInFilter extends FieldFilter {
constructor(field, value) {
super(field, "in" /* Operator.IN */, value);
this.keys = extractDocumentKeysFromArrayValue("in" /* Operator.IN */, value);
}
matches(doc) {
return this.keys.some(key => key.isEqual(doc.key));
}
}
/** Filter that matches on key fields not present within an array. */
class KeyFieldNotInFilter extends FieldFilter {
constructor(field, value) {
super(field, "not-in" /* Operator.NOT_IN */, value);
this.keys = extractDocumentKeysFromArrayValue("not-in" /* Operator.NOT_IN */, value);
}
matches(doc) {
return !this.keys.some(key => key.isEqual(doc.key));
}
}
function extractDocumentKeysFromArrayValue(op, value) {
var _a;
return (((_a = value.arrayValue) === null || _a === void 0 ? void 0 : _a.values) || []).map(v => {
return DocumentKey.fromName(v.referenceValue);
});
}
/** A Filter that implements the array-contains operator. */
class ArrayContainsFilter extends FieldFilter {
constructor(field, value) {
super(field, "array-contains" /* Operator.ARRAY_CONTAINS */, value);
}
matches(doc) {
const other = doc.data.field(this.field);
return isArray(other) && arrayValueContains(other.arrayValue, this.value);
}
}
/** A Filter that implements the IN operator. */
class InFilter extends FieldFilter {
constructor(field, value) {
super(field, "in" /* Operator.IN */, value);
}
matches(doc) {
const other = doc.data.field(this.field);
return other !== null && arrayValueContains(this.value.arrayValue, other);
}
}
/** A Filter that implements the not-in operator. */
class NotInFilter extends FieldFilter {
constructor(field, value) {
super(field, "not-in" /* Operator.NOT_IN */, value);
}
matches(doc) {
if (arrayValueContains(this.value.arrayValue, { nullValue: 'NULL_VALUE' })) {
return false;
}
const other = doc.data.field(this.field);
return other !== null && !arrayValueContains(this.value.arrayValue, other);
}
}
/** A Filter that implements the array-contains-any operator. */
class ArrayContainsAnyFilter extends FieldFilter {
constructor(field, value) {
super(field, "array-contains-any" /* Operator.ARRAY_CONTAINS_ANY */, value);
}
matches(doc) {
const other = doc.data.field(this.field);
if (!isArray(other) || !other.arrayValue.values) {
return false;
}
return other.arrayValue.values.some(val => arrayValueContains(this.value.arrayValue, val));
}
}
/**
* @license
* Copyright 2022 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 ordering on a field, in some Direction. Direction defaults to ASCENDING.
*/
class OrderBy {
constructor(field, dir = "asc" /* Direction.ASCENDING */) {
this.field = field;
this.dir = dir;
}
}
function orderByEquals(left, right) {
return left.dir === right.dir && left.field.isEqual(right.field);
}
/**
* @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 version of a document in Firestore. This corresponds to the version
* timestamp, such as update_time or read_time.
*/
class SnapshotVersion {
constructor(timestamp) {
this.timestamp = timestamp;
}
static fromTimestamp(value) {
return new SnapshotVersion(value);
}
static min() {
return new SnapshotVersion(new Timestamp(0, 0));
}
static max() {
return new SnapshotVersion(new Timestamp(253402300799, 1e9 - 1));
}
compareTo(other) {
return this.timestamp._compareTo(other.timestamp);
}
isEqual(other) {
return this.timestamp.isEqual(other.timestamp);
}
/** Returns a number representation of the version for use in spec tests. */
toMicroseconds() {
// Convert to microseconds.
return this.timestamp.seconds * 1e6 + this.timestamp.nanoseconds / 1000;
}
toString() {
return 'SnapshotVersion(' + this.timestamp.toString() + ')';
}
toTimestamp() {
return this.timestamp;
}
}
/**
* @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 immutable sorted map implementation, based on a Left-leaning Red-Black
// tree.
class SortedMap {
constructor(comparator, root) {
this.comparator = comparator;
this.root = root ? root : LLRBNode.EMPTY;
}
// Returns a copy of the map, with the specified key/value added or replaced.
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.
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.
get(key) {
let node = this.root;
while (!node.isEmpty()) {
const 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 index of the element in this sorted map, or -1 if it doesn't
// exist.
indexOf(key) {
// Number of nodes that were pruned when descending right
let prunedNodes = 0;
let node = this.root;
while (!node.isEmpty()) {
const cmp = this.comparator(key, node.key);
if (cmp === 0) {
return prunedNodes + node.left.size;
}
else if (cmp < 0) {
node = node.left;
}
else {
// Count all nodes left of the node plus the node itself
prunedNodes += node.left.size + 1;
node = node.right;
}
}
// Node not found
return -1;
}
isEmpty() {
return this.root.isEmpty();
}
// Returns the total number of nodes in the map.
get size() {
return this.root.size;
}
// 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. 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);
}
forEach(fn) {
this.inorderTraversal((k, v) => {
fn(k, v);
return false;
});
}
toString() {
const descriptions = [];
this.inorderTraversal((k, v) => {
descriptions.push(`${k}:${v}`);
return false;
});
return `{${descriptions.join(', ')}}`;
}
// Traverses the map in reverse key order and calls the specified action
// function 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.
reverseTraversal(action) {
return this.root.reverseTraversal(action);
}
// Returns an iterator over the SortedMap.
getIterator() {
return new SortedMapIterator(this.root, null, this.comparator, false);
}
getIteratorFrom(key) {
return new SortedMapIterator(this.root, key, this.comparator, false);
}
getReverseIterator() {
return new SortedMapIterator(this.root, null, this.comparator, true);
}
getReverseIteratorFrom(key) {
return new SortedMapIterator(this.root, key, this.comparator, true);
}
} // end SortedMap
// An iterator over an LLRBNode.
class SortedMapIterator {
constructor(node, startKey, comparator, isReverse) {
this.isReverse = isReverse;
this.nodeStack = [];
let cmp = 1;
while (!node.isEmpty()) {
cmp = startKey ? comparator(node.key, startKey) : 1;
// flip the comparison if we're going in reverse
if (startKey && 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() {
let node = this.nodeStack.pop();
const 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];
return { key: node.key, value: node.value };
}
} // end SortedMapIterator
// Represents a node in a Left-leaning Red-Black tree.
class LLRBNode {
constructor(key, value, color, left, right) {
this.key = key;
this.value = value;
this.color = color != null ? color : LLRBNode.RED;
this.left = left != null ? left : LLRBNode.EMPTY;
this.right = right != null ? right : LLRBNode.EMPTY;
this.size = this.left.size + 1 + this.right.size;
}
// Returns a copy of the current node, optionally replacing pieces of it.
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);
}
isEmpty() {
return false;
}
// Traverses the tree in key order and calls the specified action function
// for each node. 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.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. If action returns true, traversal is aborted.
// Returns the first truthy value returned by action, or the last falsey
// value returned by action.
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();
}
}
// 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();
}
removeMin() {
if (this.left.isEmpty()) {
return LLRBNode.EMPTY;
}
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();
}
// Returns new tree, with the specified item removed.
remove(key, comparator) {
let smallest;
let 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 LLRBNode.EMPTY;
}
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();
}
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;
}
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;
}
moveRedRight() {
let n = this.colorFlip();
if (n.left.left.isRed()) {
n = n.rotateRight();
n = n.colorFlip();
}
return n;
}
rotateLeft() {
const nl = this.copy(null, null, LLRBNode.RED, null, this.right.left);
return this.right.copy(null, null, this.color, nl, null);
}
rotateRight() {
const nr = this.copy(null, null, LLRBNode.RED, this.left.right, null);
return this.left.copy(null, null, this.color, null, nr);
}
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.
checkMaxDepth() {
const blackDepth = this.check();
if (Math.pow(2.0, blackDepth) <= this.size + 1) {
return true;
}
else {
return false;
}
}
// In a balanced RB tree, the black-depth (number of black nodes) from root to
// leaves is equal on both sides. This function verifies that or asserts.
check() {
if (this.isRed() && this.left.isRed()) {
throw fail();
}
if (this.right.isRed()) {
throw fail();
}
const blackDepth = this.left.check();
if (blackDepth !== this.right.check()) {
throw fail();
}
else {
return blackDepth + (this.isRed() ? 0 : 1);
}
}
} // end LLRBNode
// Empty node is shared between all LLRB trees.
// eslint-disable-next-line @typescript-eslint/no-explicit-any
LLRBNode.EMPTY = null;
LLRBNode.RED = true;
LLRBNode.BLACK = false;
// Represents an empty node (a leaf node in the Red-Black Tree).
class LLRBEmptyNode {
constructor() {
this.size = 0;
}
get key() {
throw fail();
}
get value() {
throw fail();
}
get color() {
throw fail();
}
get left() {
throw fail();
}
get right() {
throw fail();
}
// Returns a copy of the current node.
copy(key, value, color, left, right) {
return this;
}
// Returns a copy of the tree, with the specified key/value added.
insert(key, value, comparator) {
return new LLRBNode(key, value);
}
// Returns a copy of the tree, with the specified key removed.
remove(key, comparator) {
return this;
}
isEmpty() {
return true;
}
inorderTraversal(action) {
return false;
}
reverseTraversal(action) {
return false;
}
minKey() {
return null;
}
maxKey() {
return null;
}
isRed() {
return false;
}
// For testing.
checkMaxDepth() {
return true;
}
check() {
return 0;
}
} // end LLRBEmptyNode
LLRBNode.EMPTY = 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.
*/
/**
* SortedSet is an immutable (copy-on-write) collection that holds elements
* in order specified by the provided comparator.
*
* NOTE: if provided comparator returns 0 for two elements, we consider them to
* be equal!
*/
class SortedSet {
constructor(comparator) {
this.comparator = comparator;
this.data = new SortedMap(this.comparator);
}
has(elem) {
return this.data.get(elem) !== null;
}
first() {
return this.data.minKey();
}
last() {
return this.data.maxKey();
}
get size() {
return this.data.size;
}
indexOf(elem) {
return this.data.indexOf(elem);
}
/** Iterates elements in order defined by "comparator" */
forEach(cb) {
this.data.inorderTraversal((k, v) => {
cb(k);
return false;
});
}
/** Iterates over `elem`s such that: range[0] &lt;= elem &lt; range[1]. */
forEachInRange(range, cb) {
const iter = this.data.getIteratorFrom(range[0]);
while (iter.hasNext()) {
const elem = iter.getNext();
if (this.comparator(elem.key, range[1]) >= 0) {
return;
}
cb(elem.key);
}
}
/**
* Iterates over `elem`s such that: start &lt;= elem until false is returned.
*/
forEachWhile(cb, start) {
let iter;
if (start !== undefined) {
iter = this.data.getIteratorFrom(start);
}
else {
iter = this.data.getIterator();
}
while (iter.hasNext()) {
const elem = iter.getNext();
const result = cb(elem.key);
if (!result) {
return;
}
}
}
/** Finds the least element greater than or equal to `elem`. */
firstAfterOrEqual(elem) {
const iter = this.data.getIteratorFrom(elem);
return iter.hasNext() ? iter.getNext().key : null;
}
getIterator() {
return new SortedSetIterator(this.data.getIterator());
}
getIteratorFrom(key) {
return new SortedSetIterator(this.data.getIteratorFrom(key));
}
/** Inserts or updates an element */
add(elem) {
return this.copy(this.data.remove(elem).insert(elem, true));
}
/** Deletes an element */
delete(elem) {
if (!this.has(elem)) {
return this;
}
return this.copy(this.data.remove(elem));
}
isEmpty() {
return this.data.isEmpty();
}
unionWith(other) {
let result = this;
// Make sure `result` always refers to the larger one of the two sets.
if (result.size < other.size) {
result = other;
other = this;
}
other.forEach(elem => {
result = result.add(elem);
});
return result;
}
isEqual(other) {
if (!(other instanceof SortedSet)) {
return false;
}
if (this.size !== other.size) {
return false;
}
const thisIt = this.data.getIterator();
const otherIt = other.data.getIterator();
while (thisIt.hasNext()) {
const thisElem = thisIt.getNext().key;
const otherElem = otherIt.getNext().key;
if (this.comparator(thisElem, otherElem) !== 0) {
return false;
}
}
return true;
}
toArray() {
const res = [];
this.forEach(targetId => {
res.push(targetId);
});
return res;
}
toString() {
const result = [];
this.forEach(elem => result.push(elem));
return 'SortedSet(' + result.toString() + ')';
}
copy(data) {
const result = new SortedSet(this.comparator);
result.data = data;
return result;
}
}
class SortedSetIterator {
constructor(iter) {
this.iter = iter;
}
getNext() {
return this.iter.getNext().key;
}
hasNext() {
return this.iter.hasNext();
}
}
/**
* @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.
*/
/**
* Provides a set of fields that can be used to partially patch a document.
* FieldMask is used in conjunction with ObjectValue.
* Examples:
* foo - Overwrites foo entirely with the provided value. If foo is not
* present in the companion ObjectValue, the field is deleted.
* foo.bar - Overwrites only the field bar of the object foo.
* If foo is not an object, foo is replaced with an object
* containing foo
*/
class FieldMask {
constructor(fields) {
this.fields = fields;
// TODO(dimond): validation of FieldMask
// Sort the field mask to support `FieldMask.isEqual()` and assert below.
fields.sort(FieldPath$1.comparator);
}
static empty() {
return new FieldMask([]);
}
/**
* Returns a new FieldMask object that is the result of adding all the given
* fields paths to this field mask.
*/
unionWith(extraFields) {
let mergedMaskSet = new SortedSet(FieldPath$1.comparator);
for (const fieldPath of this.fields) {
mergedMaskSet = mergedMaskSet.add(fieldPath);
}
for (const fieldPath of extraFields) {
mergedMaskSet = mergedMaskSet.add(fieldPath);
}
return new FieldMask(mergedMaskSet.toArray());
}
/**
* Verifies that `fieldPath` is included by at least one field in this field
* mask.
*
* This is an O(n) operation, where `n` is the size of the field mask.
*/
covers(fieldPath) {
for (const fieldMaskPath of this.fields) {
if (fieldMaskPath.isPrefixOf(fieldPath)) {
return true;
}
}
return false;
}
isEqual(other) {
return arrayEquals(this.fields, other.fields, (l, r) => l.isEqual(r));
}
}
/**
* @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 ObjectValue represents a MapValue in the Firestore Proto and offers the
* ability to add and remove fields (via the ObjectValueBuilder).
*/
class ObjectValue {
constructor(value) {
this.value = value;
}
static empty() {
return new ObjectValue({ mapValue: {} });
}
/**
* Returns the value at the given path or null.
*
* @param path - the path to search
* @returns The value at the path or null if the path is not set.
*/
field(path) {
if (path.isEmpty()) {
return this.value;
}
else {
let currentLevel = this.value;
for (let i = 0; i < path.length - 1; ++i) {
currentLevel = (currentLevel.mapValue.fields || {})[path.get(i)];
if (!isMapValue(currentLevel)) {
return null;
}
}
currentLevel = (currentLevel.mapValue.fields || {})[path.lastSegment()];
return currentLevel || null;
}
}
/**
* Sets the field to the provided value.
*
* @param path - The field path to set.
* @param value - The value to set.
*/
set(path, value) {
const fieldsMap = this.getFieldsMap(path.popLast());
fieldsMap[path.lastSegment()] = deepClone(value);
}
/**
* Sets the provided fields to the provided values.
*
* @param data - A map of fields to values (or null for deletes).
*/
setAll(data) {
let parent = FieldPath$1.emptyPath();
let upserts = {};
let deletes = [];
data.forEach((value, path) => {
if (!parent.isImmediateParentOf(path)) {
// Insert the accumulated changes at this parent location
const fieldsMap = this.getFieldsMap(parent);
this.applyChanges(fieldsMap, upserts, deletes);
upserts = {};
deletes = [];
parent = path.popLast();
}
if (value) {
upserts[path.lastSegment()] = deepClone(value);
}
else {
deletes.push(path.lastSegment());
}
});
const fieldsMap = this.getFieldsMap(parent);
this.applyChanges(fieldsMap, upserts, deletes);
}
/**
* Removes the field at the specified path. If there is no field at the
* specified path, nothing is changed.
*
* @param path - The field path to remove.
*/
delete(path) {
const nestedValue = this.field(path.popLast());
if (isMapValue(nestedValue) && nestedValue.mapValue.fields) {
delete nestedValue.mapValue.fields[path.lastSegment()];
}
}
isEqual(other) {
return valueEquals(this.value, other.value);
}
/**
* Returns the map that contains the leaf element of `path`. If the parent
* entry does not yet exist, or if it is not a map, a new map will be created.
*/
getFieldsMap(path) {
let current = this.value;
if (!current.mapValue.fields) {
current.mapValue = { fields: {} };
}
for (let i = 0; i < path.length; ++i) {
let next = current.mapValue.fields[path.get(i)];
if (!isMapValue(next) || !next.mapValue.fields) {
next = { mapValue: { fields: {} } };
current.mapValue.fields[path.get(i)] = next;
}
current = next;
}
return current.mapValue.fields;
}
/**
* Modifies `fieldsMap` by adding, replacing or deleting the specified
* entries.
*/
applyChanges(fieldsMap, inserts, deletes) {
forEach(inserts, (key, val) => (fieldsMap[key] = val));
for (const field of deletes) {
delete fieldsMap[field];
}
}
clone() {
return new ObjectValue(deepClone(this.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.
*/
/**
* Represents a document in Firestore with a key, version, data and whether it
* has local mutations applied to it.
*
* Documents can transition between states via `convertToFoundDocument()`,
* `convertToNoDocument()` and `convertToUnknownDocument()`. If a document does
* not transition to one of these states even after all mutations have been
* applied, `isValidDocument()` returns false and the document should be removed
* from all views.
*/
class MutableDocument {
constructor(key, documentType, version, readTime, createTime, data, documentState) {
this.key = key;
this.documentType = documentType;
this.version = version;
this.readTime = readTime;
this.createTime = createTime;
this.data = data;
this.documentState = documentState;
}
/**
* Creates a document with no known version or data, but which can serve as
* base document for mutations.
*/
static newInvalidDocument(documentKey) {
return new MutableDocument(documentKey, 0 /* DocumentType.INVALID */,
/* version */ SnapshotVersion.min(),
/* readTime */ SnapshotVersion.min(),
/* createTime */ SnapshotVersion.min(), ObjectValue.empty(), 0 /* DocumentState.SYNCED */);
}
/**
* Creates a new document that is known to exist with the given data at the
* given version.
*/
static newFoundDocument(documentKey, version, createTime, value) {
return new MutableDocument(documentKey, 1 /* DocumentType.FOUND_DOCUMENT */,
/* version */ version,
/* readTime */ SnapshotVersion.min(),
/* createTime */ createTime, value, 0 /* DocumentState.SYNCED */);
}
/** Creates a new document that is known to not exist at the given version. */
static newNoDocument(documentKey, version) {
return new MutableDocument(documentKey, 2 /* DocumentType.NO_DOCUMENT */,
/* version */ version,
/* readTime */ SnapshotVersion.min(),
/* createTime */ SnapshotVersion.min(), ObjectValue.empty(), 0 /* DocumentState.SYNCED */);
}
/**
* Creates a new document that is known to exist at the given version but
* whose data is not known (e.g. a document that was updated without a known
* base document).
*/
static newUnknownDocument(documentKey, version) {
return new MutableDocument(documentKey, 3 /* DocumentType.UNKNOWN_DOCUMENT */,
/* version */ version,
/* readTime */ SnapshotVersion.min(),
/* createTime */ SnapshotVersion.min(), ObjectValue.empty(), 2 /* DocumentState.HAS_COMMITTED_MUTATIONS */);
}
/**
* Changes the document type to indicate that it exists and that its version
* and data are known.
*/
convertToFoundDocument(version, value) {
// If a document is switching state from being an invalid or deleted
// document to a valid (FOUND_DOCUMENT) document, either due to receiving an
// update from Watch or due to applying a local set mutation on top
// of a deleted document, our best guess about its createTime would be the
// version at which the document transitioned to a FOUND_DOCUMENT.
if (this.createTime.isEqual(SnapshotVersion.min()) &&
(this.documentType === 2 /* DocumentType.NO_DOCUMENT */ ||
this.documentType === 0 /* DocumentType.INVALID */)) {
this.createTime = version;
}
this.version = version;
this.documentType = 1 /* DocumentType.FOUND_DOCUMENT */;
this.data = value;
this.documentState = 0 /* DocumentState.SYNCED */;
return this;
}
/**
* Changes the document type to indicate that it doesn't exist at the given
* version.
*/
convertToNoDocument(version) {
this.version = version;
this.documentType = 2 /* DocumentType.NO_DOCUMENT */;
this.data = ObjectValue.empty();
this.documentState = 0 /* DocumentState.SYNCED */;
return this;
}
/**
* Changes the document type to indicate that it exists at a given version but
* that its data is not known (e.g. a document that was updated without a known
* base document).
*/
convertToUnknownDocument(version) {
this.version = version;
this.documentType = 3 /* DocumentType.UNKNOWN_DOCUMENT */;
this.data = ObjectValue.empty();
this.documentState = 2 /* DocumentState.HAS_COMMITTED_MUTATIONS */;
return this;
}
setHasCommittedMutations() {
this.documentState = 2 /* DocumentState.HAS_COMMITTED_MUTATIONS */;
return this;
}
setHasLocalMutations() {
this.documentState = 1 /* DocumentState.HAS_LOCAL_MUTATIONS */;
this.version = SnapshotVersion.min();
return this;
}
setReadTime(readTime) {
this.readTime = readTime;
return this;
}
get hasLocalMutations() {
return this.documentState === 1 /* DocumentState.HAS_LOCAL_MUTATIONS */;
}
get hasCommittedMutations() {
return this.documentState === 2 /* DocumentState.HAS_COMMITTED_MUTATIONS */;
}
get hasPendingWrites() {
return this.hasLocalMutations || this.hasCommittedMutations;
}
isValidDocument() {
return this.documentType !== 0 /* DocumentType.INVALID */;
}
isFoundDocument() {
return this.documentType === 1 /* DocumentType.FOUND_DOCUMENT */;
}
isNoDocument() {
return this.documentType === 2 /* DocumentType.NO_DOCUMENT */;
}
isUnknownDocument() {
return this.documentType === 3 /* DocumentType.UNKNOWN_DOCUMENT */;
}
isEqual(other) {
return (other instanceof MutableDocument &&
this.key.isEqual(other.key) &&
this.version.isEqual(other.version) &&
this.documentType === other.documentType &&
this.documentState === other.documentState &&
this.data.isEqual(other.data));
}
mutableCopy() {
return new MutableDocument(this.key, this.documentType, this.version, this.readTime, this.createTime, this.data.clone(), this.documentState);
}
toString() {
return (`Document(${this.key}, ${this.version}, ${JSON.stringify(this.data.value)}, ` +
`{createTime: ${this.createTime}}), ` +
`{documentType: ${this.documentType}}), ` +
`{documentState: ${this.documentState}})`);
}
}
/**
* @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.
*/
// Visible for testing
class TargetImpl {
constructor(path, collectionGroup = null, orderBy = [], filters = [], limit = null, startAt = null, endAt = null) {
this.path = path;
this.collectionGroup = collectionGroup;
this.orderBy = orderBy;
this.filters = filters;
this.limit = limit;
this.startAt = startAt;
this.endAt = endAt;
this.memoizedCanonicalId = null;
}
}
/**
* Initializes a Target with a path and optional additional query constraints.
* Path must currently be empty if this is a collection group query.
*
* NOTE: you should always construct `Target` from `Query.toTarget` instead of
* using this factory method, because `Query` provides an implicit `orderBy`
* property.
*/
function newTarget(path, collectionGroup = null, orderBy = [], filters = [], limit = null, startAt = null, endAt = null) {
return new TargetImpl(path, collectionGroup, orderBy, filters, limit, startAt, endAt);
}
function targetEquals(left, right) {
if (left.limit !== right.limit) {
return false;
}
if (left.orderBy.length !== right.orderBy.length) {
return false;
}
for (let i = 0; i < left.orderBy.length; i++) {
if (!orderByEquals(left.orderBy[i], right.orderBy[i])) {
return false;
}
}
if (left.filters.length !== right.filters.length) {
return false;
}
for (let i = 0; i < left.filters.length; i++) {
if (!filterEquals(left.filters[i], right.filters[i])) {
return false;
}
}
if (left.collectionGroup !== right.collectionGroup) {
return false;
}
if (!left.path.isEqual(right.path)) {
return false;
}
if (!boundEquals(left.startAt, right.startAt)) {
return false;
}
return boundEquals(left.endAt, right.endAt);
}
/**
* @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.
*/
/**
* Query encapsulates all the query attributes we support in the SDK. It can
* be run against the LocalStore, as well as be converted to a `Target` to
* query the RemoteStore results.
*
* Visible for testing.
*/
class QueryImpl {
/**
* Initializes a Query with a path and optional additional query constraints.
* Path must currently be empty if this is a collection group query.
*/
constructor(path, collectionGroup = null, explicitOrderBy = [], filters = [], limit = null, limitType = "F" /* LimitType.First */, startAt = null, endAt = null) {
this.path = path;
this.collectionGroup = collectionGroup;
this.explicitOrderBy = explicitOrderBy;
this.filters = filters;
this.limit = limit;
this.limitType = limitType;
this.startAt = startAt;
this.endAt = endAt;
this.memoizedNormalizedOrderBy = null;
// The corresponding `Target` of this `Query` instance, for use with
// non-aggregate queries.
this.memoizedTarget = null;
// The corresponding `Target` of this `Query` instance, for use with
// aggregate queries. Unlike targets for non-aggregate queries,
// aggregate query targets do not contain normalized order-bys, they only
// contain explicit order-bys.
this.memoizedAggregateTarget = null;
if (this.startAt) ;
if (this.endAt) ;
}
}
/** Creates a new Query for a query that matches all documents at `path` */
function newQueryForPath(path) {
return new QueryImpl(path);
}
// Returns the sorted set of inequality filter fields used in this query.
function getInequalityFilterFields(query) {
let result = new SortedSet(FieldPath$1.comparator);
query.filters.forEach((filter) => {
const subFilters = filter.getFlattenedFilters();
subFilters.forEach((filter) => {
if (filter.isInequality()) {
result = result.add(filter.field);
}
});
});
return result;
}
/**
* Creates a new Query for a collection group query that matches all documents
* within the provided collection group.
*/
function newQueryForCollectionGroup(collectionId) {
return new QueryImpl(ResourcePath.emptyPath(), collectionId);
}
/**
* Returns whether the query matches a collection group rather than a specific
* collection.
*/
function isCollectionGroupQuery(query) {
return query.collectionGroup !== null;
}
/**
* Returns the normalized order-by constraint that is used to execute the Query,
* which can be different from the order-by constraints the user provided (e.g.
* the SDK and backend always orders by `__name__`). The normalized order-by
* includes implicit order-bys in addition to the explicit user provided
* order-bys.
*/
function queryNormalizedOrderBy(query) {
const queryImpl = debugCast(query);
if (queryImpl.memoizedNormalizedOrderBy === null) {
queryImpl.memoizedNormalizedOrderBy = [];
const fieldsNormalized = new Set();
// Any explicit order by fields should be added as is.
for (const orderBy of queryImpl.explicitOrderBy) {
queryImpl.memoizedNormalizedOrderBy.push(orderBy);
fieldsNormalized.add(orderBy.field.canonicalString());
}
// The order of the implicit ordering always matches the last explicit order by.
const lastDirection = queryImpl.explicitOrderBy.length > 0
? queryImpl.explicitOrderBy[queryImpl.explicitOrderBy.length - 1].dir
: "asc" /* Direction.ASCENDING */;
// Any inequality fields not explicitly ordered should be implicitly ordered in a lexicographical
// order. When there are multiple inequality filters on the same field, the field should be added
// only once.
// Note: `SortedSet<FieldPath>` sorts the key field before other fields. However, we want the key
// field to be sorted last.
const inequalityFields = getInequalityFilterFields(queryImpl);
inequalityFields.forEach(field => {
if (!fieldsNormalized.has(field.canonicalString()) &&
!field.isKeyField()) {
queryImpl.memoizedNormalizedOrderBy.push(new OrderBy(field, lastDirection));
}
});
// Add the document key field to the last if it is not explicitly ordered.
if (!fieldsNormalized.has(FieldPath$1.keyField().canonicalString())) {
queryImpl.memoizedNormalizedOrderBy.push(new OrderBy(FieldPath$1.keyField(), lastDirection));
}
}
return queryImpl.memoizedNormalizedOrderBy;
}
/**
* Converts this `Query` instance to its corresponding `Target` representation.
*/
function queryToTarget(query) {
const queryImpl = debugCast(query);
if (!queryImpl.memoizedTarget) {
queryImpl.memoizedTarget = _queryToTarget(queryImpl, queryNormalizedOrderBy(query));
}
return queryImpl.memoizedTarget;
}
/**
* Converts this `Query` instance to its corresponding `Target` representation,
* for use within an aggregate query. Unlike targets for non-aggregate queries,
* aggregate query targets do not contain normalized order-bys, they only
* contain explicit order-bys.
*/
function queryToAggregateTarget(query) {
const queryImpl = debugCast(query);
if (!queryImpl.memoizedAggregateTarget) {
// Do not include implicit order-bys for aggregate queries.
queryImpl.memoizedAggregateTarget = _queryToTarget(queryImpl, query.explicitOrderBy);
}
return queryImpl.memoizedAggregateTarget;
}
function _queryToTarget(queryImpl, orderBys) {
if (queryImpl.limitType === "F" /* LimitType.First */) {
return newTarget(queryImpl.path, queryImpl.collectionGroup, orderBys, queryImpl.filters, queryImpl.limit, queryImpl.startAt, queryImpl.endAt);
}
else {
// Flip the orderBy directions since we want the last results
orderBys = orderBys.map(orderBy => {
const dir = orderBy.dir === "desc" /* Direction.DESCENDING */
? "asc" /* Direction.ASCENDING */
: "desc" /* Direction.DESCENDING */;
return new OrderBy(orderBy.field, dir);
});
// We need to swap the cursors to match the now-flipped query ordering.
const startAt = queryImpl.endAt
? new Bound(queryImpl.endAt.position, queryImpl.endAt.inclusive)
: null;
const endAt = queryImpl.startAt
? new Bound(queryImpl.startAt.position, queryImpl.startAt.inclusive)
: null;
// Now return as a LimitType.First query.
return newTarget(queryImpl.path, queryImpl.collectionGroup, orderBys, queryImpl.filters, queryImpl.limit, startAt, endAt);
}
}
function queryWithAddedFilter(query, filter) {
const newFilters = query.filters.concat([filter]);
return new QueryImpl(query.path, query.collectionGroup, query.explicitOrderBy.slice(), newFilters, query.limit, query.limitType, query.startAt, query.endAt);
}
function queryWithAddedOrderBy(query, orderBy) {
// TODO(dimond): validate that orderBy does not list the same key twice.
const newOrderBy = query.explicitOrderBy.concat([orderBy]);
return new QueryImpl(query.path, query.collectionGroup, newOrderBy, query.filters.slice(), query.limit, query.limitType, query.startAt, query.endAt);
}
function queryWithLimit(query, limit, limitType) {
return new QueryImpl(query.path, query.collectionGroup, query.explicitOrderBy.slice(), query.filters.slice(), limit, limitType, query.startAt, query.endAt);
}
function queryWithStartAt(query, bound) {
return new QueryImpl(query.path, query.collectionGroup, query.explicitOrderBy.slice(), query.filters.slice(), query.limit, query.limitType, bound, query.endAt);
}
function queryWithEndAt(query, bound) {
return new QueryImpl(query.path, query.collectionGroup, query.explicitOrderBy.slice(), query.filters.slice(), query.limit, query.limitType, query.startAt, bound);
}
function queryEquals(left, right) {
return (targetEquals(queryToTarget(left), queryToTarget(right)) &&
left.limitType === right.limitType);
}
/**
* @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.
*/
/**
* Returns an DoubleValue for `value` that is encoded based the serializer's
* `useProto3Json` setting.
*/
function toDouble(serializer, value) {
if (serializer.useProto3Json) {
if (isNaN(value)) {
return { doubleValue: 'NaN' };
}
else if (value === Infinity) {
return { doubleValue: 'Infinity' };
}
else if (value === -Infinity) {
return { doubleValue: '-Infinity' };
}
}
return { doubleValue: isNegativeZero(value) ? '-0' : value };
}
/**
* Returns an IntegerValue for `value`.
*/
function toInteger(value) {
return { integerValue: '' + value };
}
/**
* Returns a value for a number that's appropriate to put into a proto.
* The return value is an IntegerValue if it can safely represent the value,
* otherwise a DoubleValue is returned.
*/
function toNumber(serializer, value) {
return isSafeInteger(value) ? toInteger(value) : toDouble(serializer, value);
}
/**
* @license
* Copyright 2018 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.
*/
/** Used to represent a field transform on a mutation. */
class TransformOperation {
constructor() {
// Make sure that the structural type of `TransformOperation` is unique.
// See https://github.com/microsoft/TypeScript/issues/5451
this._ = undefined;
}
}
/** Transforms a value into a server-generated timestamp. */
class ServerTimestampTransform extends TransformOperation {
}
/** Transforms an array value via a union operation. */
class ArrayUnionTransformOperation extends TransformOperation {
constructor(elements) {
super();
this.elements = elements;
}
}
/** Transforms an array value via a remove operation. */
class ArrayRemoveTransformOperation extends TransformOperation {
constructor(elements) {
super();
this.elements = elements;
}
}
/**
* Implements the backend semantics for locally computed NUMERIC_ADD (increment)
* transforms. Converts all field values to integers or doubles, but unlike the
* backend does not cap integer values at 2^63. Instead, JavaScript number
* arithmetic is used and precision loss can occur for values greater than 2^53.
*/
class NumericIncrementTransformOperation extends TransformOperation {
constructor(serializer, operand) {
super();
this.serializer = serializer;
this.operand = operand;
}
}
/**
* @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 field path and the TransformOperation to perform upon it. */
class FieldTransform {
constructor(field, transform) {
this.field = field;
this.transform = transform;
}
}
/**
* Encodes a precondition for a mutation. This follows the model that the
* backend accepts with the special case of an explicit "empty" precondition
* (meaning no precondition).
*/
class Precondition {
constructor(updateTime, exists) {
this.updateTime = updateTime;
this.exists = exists;
}
/** Creates a new empty Precondition. */
static none() {
return new Precondition();
}
/** Creates a new Precondition with an exists flag. */
static exists(exists) {
return new Precondition(undefined, exists);
}
/** Creates a new Precondition based on a version a document exists at. */
static updateTime(version) {
return new Precondition(version);
}
/** Returns whether this Precondition is empty. */
get isNone() {
return this.updateTime === undefined && this.exists === undefined;
}
isEqual(other) {
return (this.exists === other.exists &&
(this.updateTime
? !!other.updateTime && this.updateTime.isEqual(other.updateTime)
: !other.updateTime));
}
}
/**
* A mutation describes a self-contained change to a document. Mutations can
* create, replace, delete, and update subsets of documents.
*
* Mutations not only act on the value of the document but also its version.
*
* For local mutations (mutations that haven't been committed yet), we preserve
* the existing version for Set and Patch mutations. For Delete mutations, we
* reset the version to 0.
*
* Here's the expected transition table.
*
* MUTATION APPLIED TO RESULTS IN
*
* SetMutation Document(v3) Document(v3)
* SetMutation NoDocument(v3) Document(v0)
* SetMutation InvalidDocument(v0) Document(v0)
* PatchMutation Document(v3) Document(v3)
* PatchMutation NoDocument(v3) NoDocument(v3)
* PatchMutation InvalidDocument(v0) UnknownDocument(v3)
* DeleteMutation Document(v3) NoDocument(v0)
* DeleteMutation NoDocument(v3) NoDocument(v0)
* DeleteMutation InvalidDocument(v0) NoDocument(v0)
*
* For acknowledged mutations, we use the updateTime of the WriteResponse as
* the resulting version for Set and Patch mutations. As deletes have no
* explicit update time, we use the commitTime of the WriteResponse for
* Delete mutations.
*
* If a mutation is acknowledged by the backend but fails the precondition check
* locally, we transition to an `UnknownDocument` and rely on Watch to send us
* the updated version.
*
* Field transforms are used only with Patch and Set Mutations. We use the
* `updateTransforms` message to store transforms, rather than the `transforms`s
* messages.
*
* ## Subclassing Notes
*
* Every type of mutation needs to implement its own applyToRemoteDocument() and
* applyToLocalView() to implement the actual behavior of applying the mutation
* to some source document (see `setMutationApplyToRemoteDocument()` for an
* example).
*/
class Mutation {
}
/**
* A mutation that creates or replaces the document at the given key with the
* object value contents.
*/
class SetMutation extends Mutation {
constructor(key, value, precondition, fieldTransforms = []) {
super();
this.key = key;
this.value = value;
this.precondition = precondition;
this.fieldTransforms = fieldTransforms;
this.type = 0 /* MutationType.Set */;
}
getFieldMask() {
return null;
}
}
/**
* A mutation that modifies fields of the document at the given key with the
* given values. The values are applied through a field mask:
*
* * When a field is in both the mask and the values, the corresponding field
* is updated.
* * When a field is in neither the mask nor the values, the corresponding
* field is unmodified.
* * When a field is in the mask but not in the values, the corresponding field
* is deleted.
* * When a field is not in the mask but is in the values, the values map is
* ignored.
*/
class PatchMutation extends Mutation {
constructor(key, data, fieldMask, precondition, fieldTransforms = []) {
super();
this.key = key;
this.data = data;
this.fieldMask = fieldMask;
this.precondition = precondition;
this.fieldTransforms = fieldTransforms;
this.type = 1 /* MutationType.Patch */;
}
getFieldMask() {
return this.fieldMask;
}
}
/** A mutation that deletes the document at the given key. */
class DeleteMutation extends Mutation {
constructor(key, precondition) {
super();
this.key = key;
this.precondition = precondition;
this.type = 2 /* MutationType.Delete */;
this.fieldTransforms = [];
}
getFieldMask() {
return null;
}
}
/**
* A mutation that verifies the existence of the document at the given key with
* the provided precondition.
*
* The `verify` operation is only used in Transactions, and this class serves
* primarily to facilitate serialization into protos.
*/
class VerifyMutation extends Mutation {
constructor(key, precondition) {
super();
this.key = key;
this.precondition = precondition;
this.type = 3 /* MutationType.Verify */;
this.fieldTransforms = [];
}
getFieldMask() {
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.
*/
const DIRECTIONS = (() => {
const dirs = {};
dirs["asc" /* Direction.ASCENDING */] = 'ASCENDING';
dirs["desc" /* Direction.DESCENDING */] = 'DESCENDING';
return dirs;
})();
const OPERATORS = (() => {
const ops = {};
ops["<" /* Operator.LESS_THAN */] = 'LESS_THAN';
ops["<=" /* Operator.LESS_THAN_OR_EQUAL */] = 'LESS_THAN_OR_EQUAL';
ops[">" /* Operator.GREATER_THAN */] = 'GREATER_THAN';
ops[">=" /* Operator.GREATER_THAN_OR_EQUAL */] = 'GREATER_THAN_OR_EQUAL';
ops["==" /* Operator.EQUAL */] = 'EQUAL';
ops["!=" /* Operator.NOT_EQUAL */] = 'NOT_EQUAL';
ops["array-contains" /* Operator.ARRAY_CONTAINS */] = 'ARRAY_CONTAINS';
ops["in" /* Operator.IN */] = 'IN';
ops["not-in" /* Operator.NOT_IN */] = 'NOT_IN';
ops["array-contains-any" /* Operator.ARRAY_CONTAINS_ANY */] = 'ARRAY_CONTAINS_ANY';
return ops;
})();
const COMPOSITE_OPERATORS = (() => {
const ops = {};
ops["and" /* CompositeOperator.AND */] = 'AND';
ops["or" /* CompositeOperator.OR */] = 'OR';
return ops;
})();
function assertPresent(value, description) {
}
/**
* This class generates JsonObject values for the Datastore API suitable for
* sending to either GRPC stub methods or via the JSON/HTTP REST API.
*
* The serializer supports both Protobuf.js and Proto3 JSON formats. By
* setting `useProto3Json` to true, the serializer will use the Proto3 JSON
* format.
*
* For a description of the Proto3 JSON format check
* https://developers.google.com/protocol-buffers/docs/proto3#json
*
* TODO(klimt): We can remove the databaseId argument if we keep the full
* resource name in documents.
*/
class JsonProtoSerializer {
constructor(databaseId, useProto3Json) {
this.databaseId = databaseId;
this.useProto3Json = useProto3Json;
}
}
/**
* Returns a value for a number (or null) that's appropriate to put into
* a google.protobuf.Int32Value proto.
* DO NOT USE THIS FOR ANYTHING ELSE.
* This method cheats. It's typed as returning "number" because that's what
* our generated proto interfaces say Int32Value must be. But GRPC actually
* expects a { value: <number> } struct.
*/
function toInt32Proto(serializer, val) {
if (serializer.useProto3Json || isNullOrUndefined(val)) {
return val;
}
else {
return { value: val };
}
}
/**
* Returns a value for a Date that's appropriate to put into a proto.
*/
function toTimestamp(serializer, timestamp) {
if (serializer.useProto3Json) {
// Serialize to ISO-8601 date format, but with full nano resolution.
// Since JS Date has only millis, let's only use it for the seconds and
// then manually add the fractions to the end.
const jsDateStr = new Date(timestamp.seconds * 1000).toISOString();
// Remove .xxx frac part and Z in the end.
const strUntilSeconds = jsDateStr.replace(/\.\d*/, '').replace('Z', '');
// Pad the fraction out to 9 digits (nanos).
const nanoStr = ('000000000' + timestamp.nanoseconds).slice(-9);
return `${strUntilSeconds}.${nanoStr}Z`;
}
else {
return {
seconds: '' + timestamp.seconds,
nanos: timestamp.nanoseconds
// eslint-disable-next-line @typescript-eslint/no-explicit-any
};
}
}
function fromTimestamp(date) {
const timestamp = normalizeTimestamp(date);
return new Timestamp(timestamp.seconds, timestamp.nanos);
}
/**
* Returns a value for bytes that's appropriate to put in a proto.
*
* Visible for testing.
*/
function toBytes(serializer, bytes) {
if (serializer.useProto3Json) {
return bytes.toBase64();
}
else {
return bytes.toUint8Array();
}
}
function toVersion(serializer, version) {
return toTimestamp(serializer, version.toTimestamp());
}
function fromVersion(version) {
hardAssert(!!version);
return SnapshotVersion.fromTimestamp(fromTimestamp(version));
}
function toResourceName(databaseId, path) {
return toResourcePath(databaseId, path).canonicalString();
}
function toResourcePath(databaseId, path) {
const resourcePath = fullyQualifiedPrefixPath(databaseId).child('documents');
return path === undefined ? resourcePath : resourcePath.child(path);
}
function fromResourceName(name) {
const resource = ResourcePath.fromString(name);
hardAssert(isValidResourceName(resource));
return resource;
}
function toName(serializer, key) {
return toResourceName(serializer.databaseId, key.path);
}
function fromName(serializer, name) {
const resource = fromResourceName(name);
if (resource.get(1) !== serializer.databaseId.projectId) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Tried to deserialize key from different project: ' +
resource.get(1) +
' vs ' +
serializer.databaseId.projectId);
}
if (resource.get(3) !== serializer.databaseId.database) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Tried to deserialize key from different database: ' +
resource.get(3) +
' vs ' +
serializer.databaseId.database);
}
return new DocumentKey(extractLocalPathFromResourceName(resource));
}
function toQueryPath(serializer, path) {
return toResourceName(serializer.databaseId, path);
}
function fullyQualifiedPrefixPath(databaseId) {
return new ResourcePath([
'projects',
databaseId.projectId,
'databases',
databaseId.database
]);
}
function extractLocalPathFromResourceName(resourceName) {
hardAssert(resourceName.length > 4 && resourceName.get(4) === 'documents');
return resourceName.popFirst(5);
}
/** Creates a Document proto from key and fields (but no create/update time) */
function toMutationDocument(serializer, key, fields) {
return {
name: toName(serializer, key),
fields: fields.value.mapValue.fields
};
}
function fromDocument(serializer, document, hasCommittedMutations) {
const key = fromName(serializer, document.name);
const version = fromVersion(document.updateTime);
// If we read a document from persistence that is missing createTime, it's due
// to older SDK versions not storing this information. In such cases, we'll
// set the createTime to zero. This can be removed in the long term.
const createTime = document.createTime
? fromVersion(document.createTime)
: SnapshotVersion.min();
const data = new ObjectValue({ mapValue: { fields: document.fields } });
const result = MutableDocument.newFoundDocument(key, version, createTime, data);
if (hasCommittedMutations) {
result.setHasCommittedMutations();
}
return hasCommittedMutations ? result.setHasCommittedMutations() : result;
}
function fromFound(serializer, doc) {
hardAssert(!!doc.found);
assertPresent(doc.found.name);
assertPresent(doc.found.updateTime);
const key = fromName(serializer, doc.found.name);
const version = fromVersion(doc.found.updateTime);
const createTime = doc.found.createTime
? fromVersion(doc.found.createTime)
: SnapshotVersion.min();
const data = new ObjectValue({ mapValue: { fields: doc.found.fields } });
return MutableDocument.newFoundDocument(key, version, createTime, data);
}
function fromMissing(serializer, result) {
hardAssert(!!result.missing);
hardAssert(!!result.readTime);
const key = fromName(serializer, result.missing);
const version = fromVersion(result.readTime);
return MutableDocument.newNoDocument(key, version);
}
function fromBatchGetDocumentsResponse(serializer, result) {
if ('found' in result) {
return fromFound(serializer, result);
}
else if ('missing' in result) {
return fromMissing(serializer, result);
}
return fail();
}
function toMutation(serializer, mutation) {
let result;
if (mutation instanceof SetMutation) {
result = {
update: toMutationDocument(serializer, mutation.key, mutation.value)
};
}
else if (mutation instanceof DeleteMutation) {
result = { delete: toName(serializer, mutation.key) };
}
else if (mutation instanceof PatchMutation) {
result = {
update: toMutationDocument(serializer, mutation.key, mutation.data),
updateMask: toDocumentMask(mutation.fieldMask)
};
}
else if (mutation instanceof VerifyMutation) {
result = {
verify: toName(serializer, mutation.key)
};
}
else {
return fail();
}
if (mutation.fieldTransforms.length > 0) {
result.updateTransforms = mutation.fieldTransforms.map(transform => toFieldTransform(serializer, transform));
}
if (!mutation.precondition.isNone) {
result.currentDocument = toPrecondition(serializer, mutation.precondition);
}
return result;
}
function toPrecondition(serializer, precondition) {
if (precondition.updateTime !== undefined) {
return {
updateTime: toVersion(serializer, precondition.updateTime)
};
}
else if (precondition.exists !== undefined) {
return { exists: precondition.exists };
}
else {
return fail();
}
}
function toFieldTransform(serializer, fieldTransform) {
const transform = fieldTransform.transform;
if (transform instanceof ServerTimestampTransform) {
return {
fieldPath: fieldTransform.field.canonicalString(),
setToServerValue: 'REQUEST_TIME'
};
}
else if (transform instanceof ArrayUnionTransformOperation) {
return {
fieldPath: fieldTransform.field.canonicalString(),
appendMissingElements: {
values: transform.elements
}
};
}
else if (transform instanceof ArrayRemoveTransformOperation) {
return {
fieldPath: fieldTransform.field.canonicalString(),
removeAllFromArray: {
values: transform.elements
}
};
}
else if (transform instanceof NumericIncrementTransformOperation) {
return {
fieldPath: fieldTransform.field.canonicalString(),
increment: transform.operand
};
}
else {
throw fail();
}
}
function toQueryTarget(serializer, target) {
// Dissect the path into parent, collectionId, and optional key filter.
const queryTarget = { structuredQuery: {} };
const path = target.path;
let parent;
if (target.collectionGroup !== null) {
parent = path;
queryTarget.structuredQuery.from = [
{
collectionId: target.collectionGroup,
allDescendants: true
}
];
}
else {
parent = path.popLast();
queryTarget.structuredQuery.from = [{ collectionId: path.lastSegment() }];
}
queryTarget.parent = toQueryPath(serializer, parent);
const where = toFilters(target.filters);
if (where) {
queryTarget.structuredQuery.where = where;
}
const orderBy = toOrder(target.orderBy);
if (orderBy) {
queryTarget.structuredQuery.orderBy = orderBy;
}
const limit = toInt32Proto(serializer, target.limit);
if (limit !== null) {
queryTarget.structuredQuery.limit = limit;
}
if (target.startAt) {
queryTarget.structuredQuery.startAt = toStartAtCursor(target.startAt);
}
if (target.endAt) {
queryTarget.structuredQuery.endAt = toEndAtCursor(target.endAt);
}
return { queryTarget, parent };
}
function toRunAggregationQueryRequest(serializer, target, aggregates) {
const { queryTarget, parent } = toQueryTarget(serializer, target);
const aliasMap = {};
const aggregations = [];
let aggregationNum = 0;
aggregates.forEach(aggregate => {
// Map all client-side aliases to a unique short-form
// alias. This avoids issues with client-side aliases that
// exceed the 1500-byte string size limit.
const serverAlias = `aggregate_${aggregationNum++}`;
aliasMap[serverAlias] = aggregate.alias;
if (aggregate.aggregateType === 'count') {
aggregations.push({
alias: serverAlias,
count: {}
});
}
else if (aggregate.aggregateType === 'avg') {
aggregations.push({
alias: serverAlias,
avg: {
field: toFieldPathReference(aggregate.fieldPath)
}
});
}
else if (aggregate.aggregateType === 'sum') {
aggregations.push({
alias: serverAlias,
sum: {
field: toFieldPathReference(aggregate.fieldPath)
}
});
}
});
return {
request: {
structuredAggregationQuery: {
aggregations,
structuredQuery: queryTarget.structuredQuery
},
parent: queryTarget.parent
},
aliasMap,
parent
};
}
function toFilters(filters) {
if (filters.length === 0) {
return;
}
return toFilter(CompositeFilter.create(filters, "and" /* CompositeOperator.AND */));
}
function toOrder(orderBys) {
if (orderBys.length === 0) {
return;
}
return orderBys.map(order => toPropertyOrder(order));
}
function toStartAtCursor(cursor) {
return {
before: cursor.inclusive,
values: cursor.position
};
}
function toEndAtCursor(cursor) {
return {
before: !cursor.inclusive,
values: cursor.position
};
}
// visible for testing
function toDirection(dir) {
return DIRECTIONS[dir];
}
// visible for testing
function toOperatorName(op) {
return OPERATORS[op];
}
function toCompositeOperatorName(op) {
return COMPOSITE_OPERATORS[op];
}
function toFieldPathReference(path) {
return { fieldPath: path.canonicalString() };
}
// visible for testing
function toPropertyOrder(orderBy) {
return {
field: toFieldPathReference(orderBy.field),
direction: toDirection(orderBy.dir)
};
}
// visible for testing
function toFilter(filter) {
if (filter instanceof FieldFilter) {
return toUnaryOrFieldFilter(filter);
}
else if (filter instanceof CompositeFilter) {
return toCompositeFilter(filter);
}
else {
return fail();
}
}
function toCompositeFilter(filter) {
const protos = filter.getFilters().map(filter => toFilter(filter));
if (protos.length === 1) {
return protos[0];
}
return {
compositeFilter: {
op: toCompositeOperatorName(filter.op),
filters: protos
}
};
}
function toUnaryOrFieldFilter(filter) {
if (filter.op === "==" /* Operator.EQUAL */) {
if (isNanValue(filter.value)) {
return {
unaryFilter: {
field: toFieldPathReference(filter.field),
op: 'IS_NAN'
}
};
}
else if (isNullValue(filter.value)) {
return {
unaryFilter: {
field: toFieldPathReference(filter.field),
op: 'IS_NULL'
}
};
}
}
else if (filter.op === "!=" /* Operator.NOT_EQUAL */) {
if (isNanValue(filter.value)) {
return {
unaryFilter: {
field: toFieldPathReference(filter.field),
op: 'IS_NOT_NAN'
}
};
}
else if (isNullValue(filter.value)) {
return {
unaryFilter: {
field: toFieldPathReference(filter.field),
op: 'IS_NOT_NULL'
}
};
}
}
return {
fieldFilter: {
field: toFieldPathReference(filter.field),
op: toOperatorName(filter.op),
value: filter.value
}
};
}
function toDocumentMask(fieldMask) {
const canonicalFields = [];
fieldMask.fields.forEach(field => canonicalFields.push(field.canonicalString()));
return {
fieldPaths: canonicalFields
};
}
function isValidResourceName(path) {
// Resource names have at least 4 components (project ID, database ID)
return (path.length >= 4 &&
path.get(0) === 'projects' &&
path.get(2) === 'databases');
}
/**
* @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.
*/
function newSerializer(databaseId) {
return new JsonProtoSerializer(databaseId, /* useProto3Json= */ 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.
*/
const LOG_TAG$2 = 'ExponentialBackoff';
/**
* Initial backoff time in milliseconds after an error.
* Set to 1s according to https://cloud.google.com/apis/design/errors.
*/
const DEFAULT_BACKOFF_INITIAL_DELAY_MS = 1000;
const DEFAULT_BACKOFF_FACTOR = 1.5;
/** Maximum backoff time in milliseconds */
const DEFAULT_BACKOFF_MAX_DELAY_MS = 60 * 1000;
/**
* A helper for running delayed tasks following an exponential backoff curve
* between attempts.
*
* Each delay is made up of a "base" delay which follows the exponential
* backoff curve, and a +/- 50% "jitter" that is calculated and added to the
* base delay. This prevents clients from accidentally synchronizing their
* delays causing spikes of load to the backend.
*/
class ExponentialBackoff {
constructor(
/**
* The AsyncQueue to run backoff operations on.
*/
queue,
/**
* The ID to use when scheduling backoff operations on the AsyncQueue.
*/
timerId,
/**
* The initial delay (used as the base delay on the first retry attempt).
* Note that jitter will still be applied, so the actual delay could be as
* little as 0.5*initialDelayMs.
*/
initialDelayMs = DEFAULT_BACKOFF_INITIAL_DELAY_MS,
/**
* The multiplier to use to determine the extended base delay after each
* attempt.
*/
backoffFactor = DEFAULT_BACKOFF_FACTOR,
/**
* The maximum base delay after which no further backoff is performed.
* Note that jitter will still be applied, so the actual delay could be as
* much as 1.5*maxDelayMs.
*/
maxDelayMs = DEFAULT_BACKOFF_MAX_DELAY_MS) {
this.queue = queue;
this.timerId = timerId;
this.initialDelayMs = initialDelayMs;
this.backoffFactor = backoffFactor;
this.maxDelayMs = maxDelayMs;
this.currentBaseMs = 0;
this.timerPromise = null;
/** The last backoff attempt, as epoch milliseconds. */
this.lastAttemptTime = Date.now();
this.reset();
}
/**
* Resets the backoff delay.
*
* The very next backoffAndWait() will have no delay. If it is called again
* (i.e. due to an error), initialDelayMs (plus jitter) will be used, and
* subsequent ones will increase according to the backoffFactor.
*/
reset() {
this.currentBaseMs = 0;
}
/**
* Resets the backoff delay to the maximum delay (e.g. for use after a
* RESOURCE_EXHAUSTED error).
*/
resetToMax() {
this.currentBaseMs = this.maxDelayMs;
}
/**
* Returns a promise that resolves after currentDelayMs, and increases the
* delay for any subsequent attempts. If there was a pending backoff operation
* already, it will be canceled.
*/
backoffAndRun(op) {
// Cancel any pending backoff operation.
this.cancel();
// First schedule using the current base (which may be 0 and should be
// honored as such).
const desiredDelayWithJitterMs = Math.floor(this.currentBaseMs + this.jitterDelayMs());
// Guard against lastAttemptTime being in the future due to a clock change.
const delaySoFarMs = Math.max(0, Date.now() - this.lastAttemptTime);
// Guard against the backoff delay already being past.
const remainingDelayMs = Math.max(0, desiredDelayWithJitterMs - delaySoFarMs);
if (remainingDelayMs > 0) {
logDebug(LOG_TAG$2, `Backing off for ${remainingDelayMs} ms ` +
`(base delay: ${this.currentBaseMs} ms, ` +
`delay with jitter: ${desiredDelayWithJitterMs} ms, ` +
`last attempt: ${delaySoFarMs} ms ago)`);
}
this.timerPromise = this.queue.enqueueAfterDelay(this.timerId, remainingDelayMs, () => {
this.lastAttemptTime = Date.now();
return op();
});
// Apply backoff factor to determine next delay and ensure it is within
// bounds.
this.currentBaseMs *= this.backoffFactor;
if (this.currentBaseMs < this.initialDelayMs) {
this.currentBaseMs = this.initialDelayMs;
}
if (this.currentBaseMs > this.maxDelayMs) {
this.currentBaseMs = this.maxDelayMs;
}
}
skipBackoff() {
if (this.timerPromise !== null) {
this.timerPromise.skipDelay();
this.timerPromise = null;
}
}
cancel() {
if (this.timerPromise !== null) {
this.timerPromise.cancel();
this.timerPromise = null;
}
}
/** Returns a random value in the range [-currentBaseMs/2, currentBaseMs/2] */
jitterDelayMs() {
return (Math.random() - 0.5) * this.currentBaseMs;
}
}
/**
* @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.
*/
/**
* Datastore and its related methods are a wrapper around the external Google
* Cloud Datastore grpc API, which provides an interface that is more convenient
* for the rest of the client SDK architecture to consume.
*/
class Datastore {
}
/**
* An implementation of Datastore that exposes additional state for internal
* consumption.
*/
class DatastoreImpl extends Datastore {
constructor(authCredentials, appCheckCredentials, connection, serializer) {
super();
this.authCredentials = authCredentials;
this.appCheckCredentials = appCheckCredentials;
this.connection = connection;
this.serializer = serializer;
this.terminated = false;
}
verifyInitialized() {
if (this.terminated) {
throw new FirestoreError(Code.FAILED_PRECONDITION, 'The client has already been terminated.');
}
}
/** Invokes the provided RPC with auth and AppCheck tokens. */
invokeRPC(rpcName, databaseId, resourcePath, request) {
this.verifyInitialized();
return Promise.all([
this.authCredentials.getToken(),
this.appCheckCredentials.getToken()
])
.then(([authToken, appCheckToken]) => {
return this.connection.invokeRPC(rpcName, toResourcePath(databaseId, resourcePath), request, authToken, appCheckToken);
})
.catch((error) => {
if (error.name === 'FirebaseError') {
if (error.code === Code.UNAUTHENTICATED) {
this.authCredentials.invalidateToken();
this.appCheckCredentials.invalidateToken();
}
throw error;
}
else {
throw new FirestoreError(Code.UNKNOWN, error.toString());
}
});
}
/** Invokes the provided RPC with streamed results with auth and AppCheck tokens. */
invokeStreamingRPC(rpcName, databaseId, resourcePath, request, expectedResponseCount) {
this.verifyInitialized();
return Promise.all([
this.authCredentials.getToken(),
this.appCheckCredentials.getToken()
])
.then(([authToken, appCheckToken]) => {
return this.connection.invokeStreamingRPC(rpcName, toResourcePath(databaseId, resourcePath), request, authToken, appCheckToken, expectedResponseCount);
})
.catch((error) => {
if (error.name === 'FirebaseError') {
if (error.code === Code.UNAUTHENTICATED) {
this.authCredentials.invalidateToken();
this.appCheckCredentials.invalidateToken();
}
throw error;
}
else {
throw new FirestoreError(Code.UNKNOWN, error.toString());
}
});
}
terminate() {
this.terminated = true;
this.connection.terminate();
}
}
// TODO(firestorexp): Make sure there is only one Datastore instance per
// firestore-exp client.
function newDatastore(authCredentials, appCheckCredentials, connection, serializer) {
return new DatastoreImpl(authCredentials, appCheckCredentials, connection, serializer);
}
async function invokeCommitRpc(datastore, mutations) {
const datastoreImpl = debugCast(datastore);
const request = {
writes: mutations.map(m => toMutation(datastoreImpl.serializer, m))
};
await datastoreImpl.invokeRPC('Commit', datastoreImpl.serializer.databaseId, ResourcePath.emptyPath(), request);
}
async function invokeBatchGetDocumentsRpc(datastore, keys) {
const datastoreImpl = debugCast(datastore);
const request = {
documents: keys.map(k => toName(datastoreImpl.serializer, k))
};
const response = await datastoreImpl.invokeStreamingRPC('BatchGetDocuments', datastoreImpl.serializer.databaseId, ResourcePath.emptyPath(), request, keys.length);
const docs = new Map();
response.forEach(proto => {
const doc = fromBatchGetDocumentsResponse(datastoreImpl.serializer, proto);
docs.set(doc.key.toString(), doc);
});
const result = [];
keys.forEach(key => {
const doc = docs.get(key.toString());
hardAssert(!!doc);
result.push(doc);
});
return result;
}
async function invokeRunQueryRpc(datastore, query) {
const datastoreImpl = debugCast(datastore);
const { queryTarget, parent } = toQueryTarget(datastoreImpl.serializer, queryToTarget(query));
const response = await datastoreImpl.invokeStreamingRPC('RunQuery', datastoreImpl.serializer.databaseId, parent, {
structuredQuery: queryTarget.structuredQuery
});
return (response
// Omit RunQueryResponses that only contain readTimes.
.filter(proto => !!proto.document)
.map(proto => fromDocument(datastoreImpl.serializer, proto.document, undefined)));
}
async function invokeRunAggregationQueryRpc(datastore, query, aggregates) {
var _a;
const datastoreImpl = debugCast(datastore);
const { request, aliasMap, parent } = toRunAggregationQueryRequest(datastoreImpl.serializer, queryToAggregateTarget(query), aggregates);
if (!datastoreImpl.connection.shouldResourcePathBeIncludedInRequest) {
delete request.parent;
}
const response = await datastoreImpl.invokeStreamingRPC('RunAggregationQuery', datastoreImpl.serializer.databaseId, parent, request,
/*expectedResponseCount=*/ 1);
// Omit RunAggregationQueryResponse that only contain readTimes.
const filteredResult = response.filter(proto => !!proto.result);
hardAssert(filteredResult.length === 1);
// Remap the short-form aliases that were sent to the server
// to the client-side aliases. Users will access the results
// using the client-side alias.
const unmappedAggregateFields = (_a = filteredResult[0].result) === null || _a === void 0 ? void 0 : _a.aggregateFields;
const remappedFields = Object.keys(unmappedAggregateFields).reduce((accumulator, key) => {
accumulator[aliasMap[key]] = unmappedAggregateFields[key];
return accumulator;
}, {});
return remappedFields;
}
/**
* @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 LOG_TAG$1 = 'ComponentProvider';
/**
* An instance map that ensures only one Datastore exists per Firestore
* instance.
*/
const datastoreInstances = new Map();
/**
* Returns an initialized and started Datastore for the given Firestore
* instance. Callers must invoke removeComponents() when the Firestore
* instance is terminated.
*/
function getDatastore(firestore) {
if (firestore._terminated) {
throw new FirestoreError(Code.FAILED_PRECONDITION, 'The client has already been terminated.');
}
if (!datastoreInstances.has(firestore)) {
logDebug(LOG_TAG$1, 'Initializing Datastore');
const databaseInfo = makeDatabaseInfo(firestore._databaseId, firestore.app.options.appId || '', firestore._persistenceKey, firestore._freezeSettings());
const connection = newConnection(databaseInfo);
const serializer = newSerializer(firestore._databaseId);
const datastore = newDatastore(firestore._authCredentials, firestore._appCheckCredentials, connection, serializer);
datastoreInstances.set(firestore, datastore);
}
return datastoreInstances.get(firestore);
}
/**
* Removes all components associated with the provided instance. Must be called
* when the `Firestore` instance is terminated.
*/
function removeComponents(firestore) {
const datastore = datastoreInstances.get(firestore);
if (datastore) {
logDebug(LOG_TAG$1, 'Removing Datastore');
datastoreInstances.delete(firestore);
datastore.terminate();
}
}
function makeDatabaseInfo(databaseId, appId, persistenceKey, settings) {
return new DatabaseInfo(databaseId, appId, persistenceKey, settings.host, settings.ssl, settings.experimentalForceLongPolling, settings.experimentalAutoDetectLongPolling, cloneLongPollingOptions(settings.experimentalLongPollingOptions), settings.useFetchStreams);
}
/**
* @license
* Copyright 2018 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 LRU_COLLECTION_DISABLED = -1;
const LRU_DEFAULT_CACHE_SIZE_BYTES = 40 * 1024 * 1024;
/**
* @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.
*/
/** Verifies whether `e` is an IndexedDbTransactionError. */
function isIndexedDbTransactionError(e) {
// Use name equality, as instanceof checks on errors don't work with errors
// that wrap other errors.
return e.name === 'IndexedDbTransactionError';
}
/**
* @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 LRU_MINIMUM_CACHE_SIZE_BYTES = 1 * 1024 * 1024;
/**
* @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.
*/
// settings() defaults:
const DEFAULT_HOST = 'firestore.googleapis.com';
const DEFAULT_SSL = true;
// The minimum long-polling timeout is hardcoded on the server. The value here
// should be kept in sync with the value used by the server, as the server will
// silently ignore a value below the minimum and fall back to the default.
// Googlers see b/266868871 for relevant discussion.
const MIN_LONG_POLLING_TIMEOUT_SECONDS = 5;
// No maximum long-polling timeout is configured in the server, and defaults to
// 30 seconds, which is what Watch appears to use.
// Googlers see b/266868871 for relevant discussion.
const MAX_LONG_POLLING_TIMEOUT_SECONDS = 30;
// Whether long-polling auto-detected is enabled by default.
const DEFAULT_AUTO_DETECT_LONG_POLLING = true;
/**
* A concrete type describing all the values that can be applied via a
* user-supplied `FirestoreSettings` object. This is a separate type so that
* defaults can be supplied and the value can be checked for equality.
*/
class FirestoreSettingsImpl {
constructor(settings) {
var _a, _b;
if (settings.host === undefined) {
if (settings.ssl !== undefined) {
throw new FirestoreError(Code.INVALID_ARGUMENT, "Can't provide ssl option if host option is not set");
}
this.host = DEFAULT_HOST;
this.ssl = DEFAULT_SSL;
}
else {
this.host = settings.host;
this.ssl = (_a = settings.ssl) !== null && _a !== void 0 ? _a : DEFAULT_SSL;
}
this.credentials = settings.credentials;
this.ignoreUndefinedProperties = !!settings.ignoreUndefinedProperties;
this.localCache = settings.localCache;
if (settings.cacheSizeBytes === undefined) {
this.cacheSizeBytes = LRU_DEFAULT_CACHE_SIZE_BYTES;
}
else {
if (settings.cacheSizeBytes !== LRU_COLLECTION_DISABLED &&
settings.cacheSizeBytes < LRU_MINIMUM_CACHE_SIZE_BYTES) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `cacheSizeBytes must be at least ${LRU_MINIMUM_CACHE_SIZE_BYTES}`);
}
else {
this.cacheSizeBytes = settings.cacheSizeBytes;
}
}
validateIsNotUsedTogether('experimentalForceLongPolling', settings.experimentalForceLongPolling, 'experimentalAutoDetectLongPolling', settings.experimentalAutoDetectLongPolling);
this.experimentalForceLongPolling = !!settings.experimentalForceLongPolling;
if (this.experimentalForceLongPolling) {
this.experimentalAutoDetectLongPolling = false;
}
else if (settings.experimentalAutoDetectLongPolling === undefined) {
this.experimentalAutoDetectLongPolling = DEFAULT_AUTO_DETECT_LONG_POLLING;
}
else {
// For backwards compatibility, coerce the value to boolean even though
// the TypeScript compiler has narrowed the type to boolean already.
// noinspection PointlessBooleanExpressionJS
this.experimentalAutoDetectLongPolling =
!!settings.experimentalAutoDetectLongPolling;
}
this.experimentalLongPollingOptions = cloneLongPollingOptions((_b = settings.experimentalLongPollingOptions) !== null && _b !== void 0 ? _b : {});
validateLongPollingOptions(this.experimentalLongPollingOptions);
this.useFetchStreams = !!settings.useFetchStreams;
}
isEqual(other) {
return (this.host === other.host &&
this.ssl === other.ssl &&
this.credentials === other.credentials &&
this.cacheSizeBytes === other.cacheSizeBytes &&
this.experimentalForceLongPolling ===
other.experimentalForceLongPolling &&
this.experimentalAutoDetectLongPolling ===
other.experimentalAutoDetectLongPolling &&
longPollingOptionsEqual(this.experimentalLongPollingOptions, other.experimentalLongPollingOptions) &&
this.ignoreUndefinedProperties === other.ignoreUndefinedProperties &&
this.useFetchStreams === other.useFetchStreams);
}
}
function validateLongPollingOptions(options) {
if (options.timeoutSeconds !== undefined) {
if (isNaN(options.timeoutSeconds)) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `invalid long polling timeout: ` +
`${options.timeoutSeconds} (must not be NaN)`);
}
if (options.timeoutSeconds < MIN_LONG_POLLING_TIMEOUT_SECONDS) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `invalid long polling timeout: ${options.timeoutSeconds} ` +
`(minimum allowed value is ${MIN_LONG_POLLING_TIMEOUT_SECONDS})`);
}
if (options.timeoutSeconds > MAX_LONG_POLLING_TIMEOUT_SECONDS) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `invalid long polling timeout: ${options.timeoutSeconds} ` +
`(maximum allowed value is ${MAX_LONG_POLLING_TIMEOUT_SECONDS})`);
}
}
}
/**
* @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.
*/
/**
* The Cloud Firestore service interface.
*
* Do not call this constructor directly. Instead, use {@link (getFirestore:1)}.
*/
class Firestore {
/** @hideconstructor */
constructor(_authCredentials, _appCheckCredentials, _databaseId, _app) {
this._authCredentials = _authCredentials;
this._appCheckCredentials = _appCheckCredentials;
this._databaseId = _databaseId;
this._app = _app;
/**
* Whether it's a Firestore or Firestore Lite instance.
*/
this.type = 'firestore-lite';
this._persistenceKey = '(lite)';
this._settings = new FirestoreSettingsImpl({});
this._settingsFrozen = false;
}
/**
* The {@link @firebase/app#FirebaseApp} associated with this `Firestore` service
* instance.
*/
get app() {
if (!this._app) {
throw new FirestoreError(Code.FAILED_PRECONDITION, "Firestore was not initialized using the Firebase SDK. 'app' is " +
'not available');
}
return this._app;
}
get _initialized() {
return this._settingsFrozen;
}
get _terminated() {
return this._terminateTask !== undefined;
}
_setSettings(settings) {
if (this._settingsFrozen) {
throw new FirestoreError(Code.FAILED_PRECONDITION, 'Firestore has already been started and its settings can no longer ' +
'be changed. You can only modify settings before calling any other ' +
'methods on a Firestore object.');
}
this._settings = new FirestoreSettingsImpl(settings);
if (settings.credentials !== undefined) {
this._authCredentials = makeAuthCredentialsProvider(settings.credentials);
}
}
_getSettings() {
return this._settings;
}
_freezeSettings() {
this._settingsFrozen = true;
return this._settings;
}
_delete() {
if (!this._terminateTask) {
this._terminateTask = this._terminate();
}
return this._terminateTask;
}
/** Returns a JSON-serializable representation of this `Firestore` instance. */
toJSON() {
return {
app: this._app,
databaseId: this._databaseId,
settings: this._settings
};
}
/**
* Terminates all components used by this client. Subclasses can override
* this method to clean up their own dependencies, but must also call this
* method.
*
* Only ever called once.
*/
_terminate() {
removeComponents(this);
return Promise.resolve();
}
}
function initializeFirestore(app$1, settings, databaseId) {
if (!databaseId) {
databaseId = DEFAULT_DATABASE_NAME;
}
const provider = app._getProvider(app$1, 'firestore/lite');
if (provider.isInitialized(databaseId)) {
throw new FirestoreError(Code.FAILED_PRECONDITION, 'Firestore can only be initialized once per app.');
}
return provider.initialize({
options: settings,
instanceIdentifier: databaseId
});
}
function getFirestore(appOrDatabaseId, optionalDatabaseId) {
const app$1 = typeof appOrDatabaseId === 'object' ? appOrDatabaseId : app.getApp();
const databaseId = typeof appOrDatabaseId === 'string'
? appOrDatabaseId
: optionalDatabaseId || '(default)';
const db = app._getProvider(app$1, 'firestore/lite').getImmediate({
identifier: databaseId
});
if (!db._initialized) {
const emulator = util.getDefaultEmulatorHostnameAndPort('firestore');
if (emulator) {
connectFirestoreEmulator(db, ...emulator);
}
}
return db;
}
/**
* Modify this instance to communicate with the Cloud Firestore emulator.
*
* Note: This must be called before this instance has been used to do any
* operations.
*
* @param firestore - The `Firestore` instance to configure to connect to the
* emulator.
* @param host - the emulator host (ex: localhost).
* @param port - the emulator port (ex: 9000).
* @param options.mockUserToken - the mock auth token to use for unit testing
* Security Rules.
*/
function connectFirestoreEmulator(firestore, host, port, options = {}) {
var _a;
firestore = cast(firestore, Firestore);
const settings = firestore._getSettings();
const newHostSetting = `${host}:${port}`;
if (settings.host !== DEFAULT_HOST && settings.host !== newHostSetting) {
logWarn('Host has been set in both settings() and connectFirestoreEmulator(), emulator host ' +
'will be used.');
}
firestore._setSettings(Object.assign(Object.assign({}, settings), { host: newHostSetting, ssl: false }));
if (options.mockUserToken) {
let token;
let user;
if (typeof options.mockUserToken === 'string') {
token = options.mockUserToken;
user = User.MOCK_USER;
}
else {
// Let createMockUserToken validate first (catches common mistakes like
// invalid field "uid" and missing field "sub" / "user_id".)
token = util.createMockUserToken(options.mockUserToken, (_a = firestore._app) === null || _a === void 0 ? void 0 : _a.options.projectId);
const uid = options.mockUserToken.sub || options.mockUserToken.user_id;
if (!uid) {
throw new FirestoreError(Code.INVALID_ARGUMENT, "mockUserToken must contain 'sub' or 'user_id' field!");
}
user = new User(uid);
}
firestore._authCredentials = new EmulatorAuthCredentialsProvider(new OAuthToken(token, user));
}
}
/**
* Terminates the provided `Firestore` instance.
*
* After calling `terminate()` only the `clearIndexedDbPersistence()` functions
* may be used. Any other function will throw a `FirestoreError`. Termination
* does not cancel any pending writes, and any promises that are awaiting a
* response from the server will not be resolved.
*
* To restart after termination, create a new instance of `Firestore` with
* {@link (getFirestore:1)}.
*
* Note: Under normal circumstances, calling `terminate()` is not required. This
* function is useful only when you want to force this instance to release all of
* its resources or in combination with {@link clearIndexedDbPersistence} to
* ensure that all local state is destroyed between test runs.
*
* @param firestore - The `Firestore` instance to terminate.
* @returns A `Promise` that is resolved when the instance has been successfully
* terminated.
*/
function terminate(firestore) {
firestore = cast(firestore, Firestore);
app._removeServiceInstance(firestore.app, 'firestore/lite');
return firestore._delete();
}
/**
* @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.
*/
function registerFirestore() {
setSDKVersion(`${app.SDK_VERSION}_lite`);
app._registerComponent(new component.Component('firestore/lite', (container, { instanceIdentifier: databaseId, options: settings }) => {
const app = container.getProvider('app').getImmediate();
const firestoreInstance = new Firestore(new LiteAuthCredentialsProvider(container.getProvider('auth-internal')), new LiteAppCheckTokenProvider(container.getProvider('app-check-internal')), databaseIdFromApp(app, databaseId), app);
if (settings) {
firestoreInstance._setSettings(settings);
}
return firestoreInstance;
}, 'PUBLIC').setMultipleInstances(true));
// RUNTIME_ENV and BUILD_TARGET are replaced by real values during the compilation
app.registerVersion('firestore-lite', version$1, 'node');
app.registerVersion('firestore-lite', version$1, 'cjs5');
}
/**
* @license
* Copyright 2023 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.
*/
/**
* Concrete implementation of the Aggregate type.
*/
class AggregateImpl {
constructor(alias, aggregateType, fieldPath) {
this.alias = alias;
this.aggregateType = aggregateType;
this.fieldPath = fieldPath;
}
}
/**
* @license
* Copyright 2022 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.
*/
/**
* Represents an aggregation that can be performed by Firestore.
*/
// eslint-disable-next-line @typescript-eslint/no-unused-vars
class AggregateField {
/**
* Create a new AggregateField<T>
* @param aggregateType Specifies the type of aggregation operation to perform.
* @param _internalFieldPath Optionally specifies the field that is aggregated.
* @internal
*/
constructor(aggregateType = 'count', _internalFieldPath) {
this._internalFieldPath = _internalFieldPath;
/** A type string to uniquely identify instances of this class. */
this.type = 'AggregateField';
this.aggregateType = aggregateType;
}
}
/**
* The results of executing an aggregation query.
*/
class AggregateQuerySnapshot {
/** @hideconstructor */
constructor(query, _userDataWriter, _data) {
this._userDataWriter = _userDataWriter;
this._data = _data;
/** A type string to uniquely identify instances of this class. */
this.type = 'AggregateQuerySnapshot';
this.query = query;
}
/**
* Returns the results of the aggregations performed over the underlying
* query.
*
* The keys of the returned object will be the same as those of the
* `AggregateSpec` object specified to the aggregation method, and the values
* will be the corresponding aggregation result.
*
* @returns The results of the aggregations performed over the underlying
* query.
*/
data() {
return this._userDataWriter.convertObjectMap(this._data);
}
}
/**
* @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 `Query` refers to a query which you can read or listen to. You can also
* construct refined `Query` objects by adding filters and ordering.
*/
class Query {
// This is the lite version of the Query class in the main SDK.
/** @hideconstructor protected */
constructor(firestore,
/**
* If provided, the `FirestoreDataConverter` associated with this instance.
*/
converter, _query) {
this.converter = converter;
this._query = _query;
/** The type of this Firestore reference. */
this.type = 'query';
this.firestore = firestore;
}
withConverter(converter) {
return new Query(this.firestore, converter, this._query);
}
}
/**
* A `DocumentReference` refers to a document location in a Firestore database
* and can be used to write, read, or listen to the location. The document at
* the referenced location may or may not exist.
*/
class DocumentReference {
/** @hideconstructor */
constructor(firestore,
/**
* If provided, the `FirestoreDataConverter` associated with this instance.
*/
converter, _key) {
this.converter = converter;
this._key = _key;
/** The type of this Firestore reference. */
this.type = 'document';
this.firestore = firestore;
}
get _path() {
return this._key.path;
}
/**
* The document's identifier within its collection.
*/
get id() {
return this._key.path.lastSegment();
}
/**
* A string representing the path of the referenced document (relative
* to the root of the database).
*/
get path() {
return this._key.path.canonicalString();
}
/**
* The collection this `DocumentReference` belongs to.
*/
get parent() {
return new CollectionReference(this.firestore, this.converter, this._key.path.popLast());
}
withConverter(converter) {
return new DocumentReference(this.firestore, converter, this._key);
}
}
/**
* A `CollectionReference` object can be used for adding documents, getting
* document references, and querying for documents (using {@link (query:1)}).
*/
class CollectionReference extends Query {
/** @hideconstructor */
constructor(firestore, converter, _path) {
super(firestore, converter, newQueryForPath(_path));
this._path = _path;
/** The type of this Firestore reference. */
this.type = 'collection';
}
/** The collection's identifier. */
get id() {
return this._query.path.lastSegment();
}
/**
* A string representing the path of the referenced collection (relative
* to the root of the database).
*/
get path() {
return this._query.path.canonicalString();
}
/**
* A reference to the containing `DocumentReference` if this is a
* subcollection. If this isn't a subcollection, the reference is null.
*/
get parent() {
const parentPath = this._path.popLast();
if (parentPath.isEmpty()) {
return null;
}
else {
return new DocumentReference(this.firestore,
/* converter= */ null, new DocumentKey(parentPath));
}
}
withConverter(converter) {
return new CollectionReference(this.firestore, converter, this._path);
}
}
function collection(parent, path, ...pathSegments) {
parent = util.getModularInstance(parent);
validateNonEmptyArgument('collection', 'path', path);
if (parent instanceof Firestore) {
const absolutePath = ResourcePath.fromString(path, ...pathSegments);
validateCollectionPath(absolutePath);
return new CollectionReference(parent, /* converter= */ null, absolutePath);
}
else {
if (!(parent instanceof DocumentReference) &&
!(parent instanceof CollectionReference)) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Expected first argument to collection() to be a CollectionReference, ' +
'a DocumentReference or FirebaseFirestore');
}
const absolutePath = parent._path.child(ResourcePath.fromString(path, ...pathSegments));
validateCollectionPath(absolutePath);
return new CollectionReference(parent.firestore,
/* converter= */ null, absolutePath);
}
}
// TODO(firestorelite): Consider using ErrorFactory -
// https://github.com/firebase/firebase-js-sdk/blob/0131e1f/packages/util/src/errors.ts#L106
/**
* Creates and returns a new `Query` instance that includes all documents in the
* database that are contained in a collection or subcollection with the
* given `collectionId`.
*
* @param firestore - A reference to the root `Firestore` instance.
* @param collectionId - Identifies the collections to query over. Every
* collection or subcollection with this ID as the last segment of its path
* will be included. Cannot contain a slash.
* @returns The created `Query`.
*/
function collectionGroup(firestore, collectionId) {
firestore = cast(firestore, Firestore);
validateNonEmptyArgument('collectionGroup', 'collection id', collectionId);
if (collectionId.indexOf('/') >= 0) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Invalid collection ID '${collectionId}' passed to function ` +
`collectionGroup(). Collection IDs must not contain '/'.`);
}
return new Query(firestore,
/* converter= */ null, newQueryForCollectionGroup(collectionId));
}
function doc(parent, path, ...pathSegments) {
parent = util.getModularInstance(parent);
// We allow omission of 'pathString' but explicitly prohibit passing in both
// 'undefined' and 'null'.
if (arguments.length === 1) {
path = AutoId.newId();
}
validateNonEmptyArgument('doc', 'path', path);
if (parent instanceof Firestore) {
const absolutePath = ResourcePath.fromString(path, ...pathSegments);
validateDocumentPath(absolutePath);
return new DocumentReference(parent,
/* converter= */ null, new DocumentKey(absolutePath));
}
else {
if (!(parent instanceof DocumentReference) &&
!(parent instanceof CollectionReference)) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Expected first argument to collection() to be a CollectionReference, ' +
'a DocumentReference or FirebaseFirestore');
}
const absolutePath = parent._path.child(ResourcePath.fromString(path, ...pathSegments));
validateDocumentPath(absolutePath);
return new DocumentReference(parent.firestore, parent instanceof CollectionReference ? parent.converter : null, new DocumentKey(absolutePath));
}
}
/**
* Returns true if the provided references are equal.
*
* @param left - A reference to compare.
* @param right - A reference to compare.
* @returns true if the references point to the same location in the same
* Firestore database.
*/
function refEqual(left, right) {
left = util.getModularInstance(left);
right = util.getModularInstance(right);
if ((left instanceof DocumentReference ||
left instanceof CollectionReference) &&
(right instanceof DocumentReference || right instanceof CollectionReference)) {
return (left.firestore === right.firestore &&
left.path === right.path &&
left.converter === right.converter);
}
return false;
}
/**
* Returns true if the provided queries point to the same collection and apply
* the same constraints.
*
* @param left - A `Query` to compare.
* @param right - A `Query` to compare.
* @returns true if the references point to the same location in the same
* Firestore database.
*/
function queryEqual(left, right) {
left = util.getModularInstance(left);
right = util.getModularInstance(right);
if (left instanceof Query && right instanceof Query) {
return (left.firestore === right.firestore &&
queryEquals(left._query, right._query) &&
left.converter === right.converter);
}
return false;
}
/**
* @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.
*/
/**
* An immutable object representing an array of bytes.
*/
class Bytes {
/** @hideconstructor */
constructor(byteString) {
this._byteString = byteString;
}
/**
* Creates a new `Bytes` object from the given Base64 string, converting it to
* bytes.
*
* @param base64 - The Base64 string used to create the `Bytes` object.
*/
static fromBase64String(base64) {
try {
return new Bytes(ByteString.fromBase64String(base64));
}
catch (e) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Failed to construct data from Base64 string: ' + e);
}
}
/**
* Creates a new `Bytes` object from the given Uint8Array.
*
* @param array - The Uint8Array used to create the `Bytes` object.
*/
static fromUint8Array(array) {
return new Bytes(ByteString.fromUint8Array(array));
}
/**
* Returns the underlying bytes as a Base64-encoded string.
*
* @returns The Base64-encoded string created from the `Bytes` object.
*/
toBase64() {
return this._byteString.toBase64();
}
/**
* Returns the underlying bytes in a new `Uint8Array`.
*
* @returns The Uint8Array created from the `Bytes` object.
*/
toUint8Array() {
return this._byteString.toUint8Array();
}
/**
* Returns a string representation of the `Bytes` object.
*
* @returns A string representation of the `Bytes` object.
*/
toString() {
return 'Bytes(base64: ' + this.toBase64() + ')';
}
/**
* Returns true if this `Bytes` object is equal to the provided one.
*
* @param other - The `Bytes` object to compare against.
* @returns true if this `Bytes` object is equal to the provided one.
*/
isEqual(other) {
return this._byteString.isEqual(other._byteString);
}
}
/**
* @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 `FieldPath` refers to a field in a document. The path may consist of a
* single field name (referring to a top-level field in the document), or a
* list of field names (referring to a nested field in the document).
*
* Create a `FieldPath` by providing field names. If more than one field
* name is provided, the path will point to a nested field in a document.
*/
class FieldPath {
/**
* Creates a `FieldPath` from the provided field names. If more than one field
* name is provided, the path will point to a nested field in a document.
*
* @param fieldNames - A list of field names.
*/
constructor(...fieldNames) {
for (let i = 0; i < fieldNames.length; ++i) {
if (fieldNames[i].length === 0) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Invalid field name at argument $(i + 1). ` +
'Field names must not be empty.');
}
}
this._internalPath = new FieldPath$1(fieldNames);
}
/**
* Returns true if this `FieldPath` is equal to the provided one.
*
* @param other - The `FieldPath` to compare against.
* @returns true if this `FieldPath` is equal to the provided one.
*/
isEqual(other) {
return this._internalPath.isEqual(other._internalPath);
}
}
/**
* Returns a special sentinel `FieldPath` to refer to the ID of a document.
* It can be used in queries to sort or filter by the document ID.
*/
function documentId() {
return new FieldPath(DOCUMENT_KEY_NAME);
}
/**
* @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.
*/
/**
* Sentinel values that can be used when writing document fields with `set()`
* or `update()`.
*/
class FieldValue {
/**
* @param _methodName - The public API endpoint that returns this class.
* @hideconstructor
*/
constructor(_methodName) {
this._methodName = _methodName;
}
}
/**
* @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 immutable object representing a geographic location in Firestore. The
* location is represented as latitude/longitude pair.
*
* Latitude values are in the range of [-90, 90].
* Longitude values are in the range of [-180, 180].
*/
class GeoPoint {
/**
* Creates a new immutable `GeoPoint` object with the provided latitude and
* longitude values.
* @param latitude - The latitude as number between -90 and 90.
* @param longitude - The longitude as number between -180 and 180.
*/
constructor(latitude, longitude) {
if (!isFinite(latitude) || latitude < -90 || latitude > 90) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Latitude must be a number between -90 and 90, but was: ' + latitude);
}
if (!isFinite(longitude) || longitude < -180 || longitude > 180) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Longitude must be a number between -180 and 180, but was: ' + longitude);
}
this._lat = latitude;
this._long = longitude;
}
/**
* The latitude of this `GeoPoint` instance.
*/
get latitude() {
return this._lat;
}
/**
* The longitude of this `GeoPoint` instance.
*/
get longitude() {
return this._long;
}
/**
* Returns true if this `GeoPoint` is equal to the provided one.
*
* @param other - The `GeoPoint` to compare against.
* @returns true if this `GeoPoint` is equal to the provided one.
*/
isEqual(other) {
return this._lat === other._lat && this._long === other._long;
}
/** Returns a JSON-serializable representation of this GeoPoint. */
toJSON() {
return { latitude: this._lat, longitude: this._long };
}
/**
* Actually private to JS consumers of our API, so this function is prefixed
* with an underscore.
*/
_compareTo(other) {
return (primitiveComparator(this._lat, other._lat) ||
primitiveComparator(this._long, other._long));
}
}
/**
* @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 RESERVED_FIELD_REGEX = /^__.*__$/;
/** The result of parsing document data (e.g. for a setData call). */
class ParsedSetData {
constructor(data, fieldMask, fieldTransforms) {
this.data = data;
this.fieldMask = fieldMask;
this.fieldTransforms = fieldTransforms;
}
toMutation(key, precondition) {
if (this.fieldMask !== null) {
return new PatchMutation(key, this.data, this.fieldMask, precondition, this.fieldTransforms);
}
else {
return new SetMutation(key, this.data, precondition, this.fieldTransforms);
}
}
}
/** The result of parsing "update" data (i.e. for an updateData call). */
class ParsedUpdateData {
constructor(data,
// The fieldMask does not include document transforms.
fieldMask, fieldTransforms) {
this.data = data;
this.fieldMask = fieldMask;
this.fieldTransforms = fieldTransforms;
}
toMutation(key, precondition) {
return new PatchMutation(key, this.data, this.fieldMask, precondition, this.fieldTransforms);
}
}
function isWrite(dataSource) {
switch (dataSource) {
case 0 /* UserDataSource.Set */: // fall through
case 2 /* UserDataSource.MergeSet */: // fall through
case 1 /* UserDataSource.Update */:
return true;
case 3 /* UserDataSource.Argument */:
case 4 /* UserDataSource.ArrayArgument */:
return false;
default:
throw fail();
}
}
/** A "context" object passed around while parsing user data. */
class ParseContextImpl {
/**
* Initializes a ParseContext with the given source and path.
*
* @param settings - The settings for the parser.
* @param databaseId - The database ID of the Firestore instance.
* @param serializer - The serializer to use to generate the Value proto.
* @param ignoreUndefinedProperties - Whether to ignore undefined properties
* rather than throw.
* @param fieldTransforms - A mutable list of field transforms encountered
* while parsing the data.
* @param fieldMask - A mutable list of field paths encountered while parsing
* the data.
*
* TODO(b/34871131): We don't support array paths right now, so path can be
* null to indicate the context represents any location within an array (in
* which case certain features will not work and errors will be somewhat
* compromised).
*/
constructor(settings, databaseId, serializer, ignoreUndefinedProperties, fieldTransforms, fieldMask) {
this.settings = settings;
this.databaseId = databaseId;
this.serializer = serializer;
this.ignoreUndefinedProperties = ignoreUndefinedProperties;
// Minor hack: If fieldTransforms is undefined, we assume this is an
// external call and we need to validate the entire path.
if (fieldTransforms === undefined) {
this.validatePath();
}
this.fieldTransforms = fieldTransforms || [];
this.fieldMask = fieldMask || [];
}
get path() {
return this.settings.path;
}
get dataSource() {
return this.settings.dataSource;
}
/** Returns a new context with the specified settings overwritten. */
contextWith(configuration) {
return new ParseContextImpl(Object.assign(Object.assign({}, this.settings), configuration), this.databaseId, this.serializer, this.ignoreUndefinedProperties, this.fieldTransforms, this.fieldMask);
}
childContextForField(field) {
var _a;
const childPath = (_a = this.path) === null || _a === void 0 ? void 0 : _a.child(field);
const context = this.contextWith({ path: childPath, arrayElement: false });
context.validatePathSegment(field);
return context;
}
childContextForFieldPath(field) {
var _a;
const childPath = (_a = this.path) === null || _a === void 0 ? void 0 : _a.child(field);
const context = this.contextWith({ path: childPath, arrayElement: false });
context.validatePath();
return context;
}
childContextForArray(index) {
// TODO(b/34871131): We don't support array paths right now; so make path
// undefined.
return this.contextWith({ path: undefined, arrayElement: true });
}
createError(reason) {
return createError(reason, this.settings.methodName, this.settings.hasConverter || false, this.path, this.settings.targetDoc);
}
/** Returns 'true' if 'fieldPath' was traversed when creating this context. */
contains(fieldPath) {
return (this.fieldMask.find(field => fieldPath.isPrefixOf(field)) !== undefined ||
this.fieldTransforms.find(transform => fieldPath.isPrefixOf(transform.field)) !== undefined);
}
validatePath() {
// TODO(b/34871131): Remove null check once we have proper paths for fields
// within arrays.
if (!this.path) {
return;
}
for (let i = 0; i < this.path.length; i++) {
this.validatePathSegment(this.path.get(i));
}
}
validatePathSegment(segment) {
if (segment.length === 0) {
throw this.createError('Document fields must not be empty');
}
if (isWrite(this.dataSource) && RESERVED_FIELD_REGEX.test(segment)) {
throw this.createError('Document fields cannot begin and end with "__"');
}
}
}
/**
* Helper for parsing raw user input (provided via the API) into internal model
* classes.
*/
class UserDataReader {
constructor(databaseId, ignoreUndefinedProperties, serializer) {
this.databaseId = databaseId;
this.ignoreUndefinedProperties = ignoreUndefinedProperties;
this.serializer = serializer || newSerializer(databaseId);
}
/** Creates a new top-level parse context. */
createContext(dataSource, methodName, targetDoc, hasConverter = false) {
return new ParseContextImpl({
dataSource,
methodName,
targetDoc,
path: FieldPath$1.emptyPath(),
arrayElement: false,
hasConverter
}, this.databaseId, this.serializer, this.ignoreUndefinedProperties);
}
}
function newUserDataReader(firestore) {
const settings = firestore._freezeSettings();
const serializer = newSerializer(firestore._databaseId);
return new UserDataReader(firestore._databaseId, !!settings.ignoreUndefinedProperties, serializer);
}
/** Parse document data from a set() call. */
function parseSetData(userDataReader, methodName, targetDoc, input, hasConverter, options = {}) {
const context = userDataReader.createContext(options.merge || options.mergeFields
? 2 /* UserDataSource.MergeSet */
: 0 /* UserDataSource.Set */, methodName, targetDoc, hasConverter);
validatePlainObject('Data must be an object, but it was:', context, input);
const updateData = parseObject(input, context);
let fieldMask;
let fieldTransforms;
if (options.merge) {
fieldMask = new FieldMask(context.fieldMask);
fieldTransforms = context.fieldTransforms;
}
else if (options.mergeFields) {
const validatedFieldPaths = [];
for (const stringOrFieldPath of options.mergeFields) {
const fieldPath = fieldPathFromArgument$1(methodName, stringOrFieldPath, targetDoc);
if (!context.contains(fieldPath)) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Field '${fieldPath}' is specified in your field mask but missing from your input data.`);
}
if (!fieldMaskContains(validatedFieldPaths, fieldPath)) {
validatedFieldPaths.push(fieldPath);
}
}
fieldMask = new FieldMask(validatedFieldPaths);
fieldTransforms = context.fieldTransforms.filter(transform => fieldMask.covers(transform.field));
}
else {
fieldMask = null;
fieldTransforms = context.fieldTransforms;
}
return new ParsedSetData(new ObjectValue(updateData), fieldMask, fieldTransforms);
}
class DeleteFieldValueImpl extends FieldValue {
_toFieldTransform(context) {
if (context.dataSource === 2 /* UserDataSource.MergeSet */) {
// No transform to add for a delete, but we need to add it to our
// fieldMask so it gets deleted.
context.fieldMask.push(context.path);
}
else if (context.dataSource === 1 /* UserDataSource.Update */) {
throw context.createError(`${this._methodName}() can only appear at the top level ` +
'of your update data');
}
else {
// We shouldn't encounter delete sentinels for queries or non-merge set() calls.
throw context.createError(`${this._methodName}() cannot be used with set() unless you pass ` +
'{merge:true}');
}
return null;
}
isEqual(other) {
return other instanceof DeleteFieldValueImpl;
}
}
/**
* Creates a child context for parsing SerializableFieldValues.
*
* This is different than calling `ParseContext.contextWith` because it keeps
* the fieldTransforms and fieldMask separate.
*
* The created context has its `dataSource` set to `UserDataSource.Argument`.
* Although these values are used with writes, any elements in these FieldValues
* are not considered writes since they cannot contain any FieldValue sentinels,
* etc.
*
* @param fieldValue - The sentinel FieldValue for which to create a child
* context.
* @param context - The parent context.
* @param arrayElement - Whether or not the FieldValue has an array.
*/
function createSentinelChildContext(fieldValue, context, arrayElement) {
return new ParseContextImpl({
dataSource: 3 /* UserDataSource.Argument */,
targetDoc: context.settings.targetDoc,
methodName: fieldValue._methodName,
arrayElement
}, context.databaseId, context.serializer, context.ignoreUndefinedProperties);
}
class ServerTimestampFieldValueImpl extends FieldValue {
_toFieldTransform(context) {
return new FieldTransform(context.path, new ServerTimestampTransform());
}
isEqual(other) {
return other instanceof ServerTimestampFieldValueImpl;
}
}
class ArrayUnionFieldValueImpl extends FieldValue {
constructor(methodName, _elements) {
super(methodName);
this._elements = _elements;
}
_toFieldTransform(context) {
const parseContext = createSentinelChildContext(this, context,
/*array=*/ true);
const parsedElements = this._elements.map(element => parseData(element, parseContext));
const arrayUnion = new ArrayUnionTransformOperation(parsedElements);
return new FieldTransform(context.path, arrayUnion);
}
isEqual(other) {
return (other instanceof ArrayUnionFieldValueImpl &&
util.deepEqual(this._elements, other._elements));
}
}
class ArrayRemoveFieldValueImpl extends FieldValue {
constructor(methodName, _elements) {
super(methodName);
this._elements = _elements;
}
_toFieldTransform(context) {
const parseContext = createSentinelChildContext(this, context,
/*array=*/ true);
const parsedElements = this._elements.map(element => parseData(element, parseContext));
const arrayUnion = new ArrayRemoveTransformOperation(parsedElements);
return new FieldTransform(context.path, arrayUnion);
}
isEqual(other) {
return (other instanceof ArrayRemoveFieldValueImpl &&
util.deepEqual(this._elements, other._elements));
}
}
class NumericIncrementFieldValueImpl extends FieldValue {
constructor(methodName, _operand) {
super(methodName);
this._operand = _operand;
}
_toFieldTransform(context) {
const numericIncrement = new NumericIncrementTransformOperation(context.serializer, toNumber(context.serializer, this._operand));
return new FieldTransform(context.path, numericIncrement);
}
isEqual(other) {
return (other instanceof NumericIncrementFieldValueImpl &&
this._operand === other._operand);
}
}
/** Parse update data from an update() call. */
function parseUpdateData(userDataReader, methodName, targetDoc, input) {
const context = userDataReader.createContext(1 /* UserDataSource.Update */, methodName, targetDoc);
validatePlainObject('Data must be an object, but it was:', context, input);
const fieldMaskPaths = [];
const updateData = ObjectValue.empty();
forEach(input, (key, value) => {
const path = fieldPathFromDotSeparatedString(methodName, key, targetDoc);
// For Compat types, we have to "extract" the underlying types before
// performing validation.
value = util.getModularInstance(value);
const childContext = context.childContextForFieldPath(path);
if (value instanceof DeleteFieldValueImpl) {
// Add it to the field mask, but don't add anything to updateData.
fieldMaskPaths.push(path);
}
else {
const parsedValue = parseData(value, childContext);
if (parsedValue != null) {
fieldMaskPaths.push(path);
updateData.set(path, parsedValue);
}
}
});
const mask = new FieldMask(fieldMaskPaths);
return new ParsedUpdateData(updateData, mask, context.fieldTransforms);
}
/** Parse update data from a list of field/value arguments. */
function parseUpdateVarargs(userDataReader, methodName, targetDoc, field, value, moreFieldsAndValues) {
const context = userDataReader.createContext(1 /* UserDataSource.Update */, methodName, targetDoc);
const keys = [fieldPathFromArgument$1(methodName, field, targetDoc)];
const values = [value];
if (moreFieldsAndValues.length % 2 !== 0) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Function ${methodName}() needs to be called with an even number ` +
'of arguments that alternate between field names and values.');
}
for (let i = 0; i < moreFieldsAndValues.length; i += 2) {
keys.push(fieldPathFromArgument$1(methodName, moreFieldsAndValues[i]));
values.push(moreFieldsAndValues[i + 1]);
}
const fieldMaskPaths = [];
const updateData = ObjectValue.empty();
// We iterate in reverse order to pick the last value for a field if the
// user specified the field multiple times.
for (let i = keys.length - 1; i >= 0; --i) {
if (!fieldMaskContains(fieldMaskPaths, keys[i])) {
const path = keys[i];
let value = values[i];
// For Compat types, we have to "extract" the underlying types before
// performing validation.
value = util.getModularInstance(value);
const childContext = context.childContextForFieldPath(path);
if (value instanceof DeleteFieldValueImpl) {
// Add it to the field mask, but don't add anything to updateData.
fieldMaskPaths.push(path);
}
else {
const parsedValue = parseData(value, childContext);
if (parsedValue != null) {
fieldMaskPaths.push(path);
updateData.set(path, parsedValue);
}
}
}
}
const mask = new FieldMask(fieldMaskPaths);
return new ParsedUpdateData(updateData, mask, context.fieldTransforms);
}
/**
* Parse a "query value" (e.g. value in a where filter or a value in a cursor
* bound).
*
* @param allowArrays - Whether the query value is an array that may directly
* contain additional arrays (e.g. the operand of an `in` query).
*/
function parseQueryValue(userDataReader, methodName, input, allowArrays = false) {
const context = userDataReader.createContext(allowArrays ? 4 /* UserDataSource.ArrayArgument */ : 3 /* UserDataSource.Argument */, methodName);
const parsed = parseData(input, context);
return parsed;
}
/**
* Parses user data to Protobuf Values.
*
* @param input - Data to be parsed.
* @param context - A context object representing the current path being parsed,
* the source of the data being parsed, etc.
* @returns The parsed value, or null if the value was a FieldValue sentinel
* that should not be included in the resulting parsed data.
*/
function parseData(input, context) {
// Unwrap the API type from the Compat SDK. This will return the API type
// from firestore-exp.
input = util.getModularInstance(input);
if (looksLikeJsonObject(input)) {
validatePlainObject('Unsupported field value:', context, input);
return parseObject(input, context);
}
else if (input instanceof FieldValue) {
// FieldValues usually parse into transforms (except deleteField())
// in which case we do not want to include this field in our parsed data
// (as doing so will overwrite the field directly prior to the transform
// trying to transform it). So we don't add this location to
// context.fieldMask and we return null as our parsing result.
parseSentinelFieldValue(input, context);
return null;
}
else if (input === undefined && context.ignoreUndefinedProperties) {
// If the input is undefined it can never participate in the fieldMask, so
// don't handle this below. If `ignoreUndefinedProperties` is false,
// `parseScalarValue` will reject an undefined value.
return null;
}
else {
// If context.path is null we are inside an array and we don't support
// field mask paths more granular than the top-level array.
if (context.path) {
context.fieldMask.push(context.path);
}
if (input instanceof Array) {
// TODO(b/34871131): Include the path containing the array in the error
// message.
// In the case of IN queries, the parsed data is an array (representing
// the set of values to be included for the IN query) that may directly
// contain additional arrays (each representing an individual field
// value), so we disable this validation.
if (context.settings.arrayElement &&
context.dataSource !== 4 /* UserDataSource.ArrayArgument */) {
throw context.createError('Nested arrays are not supported');
}
return parseArray(input, context);
}
else {
return parseScalarValue(input, context);
}
}
}
function parseObject(obj, context) {
const fields = {};
if (isEmpty(obj)) {
// If we encounter an empty object, we explicitly add it to the update
// mask to ensure that the server creates a map entry.
if (context.path && context.path.length > 0) {
context.fieldMask.push(context.path);
}
}
else {
forEach(obj, (key, val) => {
const parsedValue = parseData(val, context.childContextForField(key));
if (parsedValue != null) {
fields[key] = parsedValue;
}
});
}
return { mapValue: { fields } };
}
function parseArray(array, context) {
const values = [];
let entryIndex = 0;
for (const entry of array) {
let parsedEntry = parseData(entry, context.childContextForArray(entryIndex));
if (parsedEntry == null) {
// Just include nulls in the array for fields being replaced with a
// sentinel.
parsedEntry = { nullValue: 'NULL_VALUE' };
}
values.push(parsedEntry);
entryIndex++;
}
return { arrayValue: { values } };
}
/**
* "Parses" the provided FieldValueImpl, adding any necessary transforms to
* context.fieldTransforms.
*/
function parseSentinelFieldValue(value, context) {
// Sentinels are only supported with writes, and not within arrays.
if (!isWrite(context.dataSource)) {
throw context.createError(`${value._methodName}() can only be used with update() and set()`);
}
if (!context.path) {
throw context.createError(`${value._methodName}() is not currently supported inside arrays`);
}
const fieldTransform = value._toFieldTransform(context);
if (fieldTransform) {
context.fieldTransforms.push(fieldTransform);
}
}
/**
* Helper to parse a scalar value (i.e. not an Object, Array, or FieldValue)
*
* @returns The parsed value
*/
function parseScalarValue(value, context) {
value = util.getModularInstance(value);
if (value === null) {
return { nullValue: 'NULL_VALUE' };
}
else if (typeof value === 'number') {
return toNumber(context.serializer, value);
}
else if (typeof value === 'boolean') {
return { booleanValue: value };
}
else if (typeof value === 'string') {
return { stringValue: value };
}
else if (value instanceof Date) {
const timestamp = Timestamp.fromDate(value);
return {
timestampValue: toTimestamp(context.serializer, timestamp)
};
}
else if (value instanceof Timestamp) {
// Firestore backend truncates precision down to microseconds. To ensure
// offline mode works the same with regards to truncation, perform the
// truncation immediately without waiting for the backend to do that.
const timestamp = new Timestamp(value.seconds, Math.floor(value.nanoseconds / 1000) * 1000);
return {
timestampValue: toTimestamp(context.serializer, timestamp)
};
}
else if (value instanceof GeoPoint) {
return {
geoPointValue: {
latitude: value.latitude,
longitude: value.longitude
}
};
}
else if (value instanceof Bytes) {
return { bytesValue: toBytes(context.serializer, value._byteString) };
}
else if (value instanceof DocumentReference) {
const thisDb = context.databaseId;
const otherDb = value.firestore._databaseId;
if (!otherDb.isEqual(thisDb)) {
throw context.createError('Document reference is for database ' +
`${otherDb.projectId}/${otherDb.database} but should be ` +
`for database ${thisDb.projectId}/${thisDb.database}`);
}
return {
referenceValue: toResourceName(value.firestore._databaseId || context.databaseId, value._key.path)
};
}
else {
throw context.createError(`Unsupported field value: ${valueDescription(value)}`);
}
}
/**
* Checks whether an object looks like a JSON object that should be converted
* into a struct. Normal class/prototype instances are considered to look like
* JSON objects since they should be converted to a struct value. Arrays, Dates,
* GeoPoints, etc. are not considered to look like JSON objects since they map
* to specific FieldValue types other than ObjectValue.
*/
function looksLikeJsonObject(input) {
return (typeof input === 'object' &&
input !== null &&
!(input instanceof Array) &&
!(input instanceof Date) &&
!(input instanceof Timestamp) &&
!(input instanceof GeoPoint) &&
!(input instanceof Bytes) &&
!(input instanceof DocumentReference) &&
!(input instanceof FieldValue));
}
function validatePlainObject(message, context, input) {
if (!looksLikeJsonObject(input) || !isPlainObject(input)) {
const description = valueDescription(input);
if (description === 'an object') {
// Massage the error if it was an object.
throw context.createError(message + ' a custom object');
}
else {
throw context.createError(message + ' ' + description);
}
}
}
/**
* Helper that calls fromDotSeparatedString() but wraps any error thrown.
*/
function fieldPathFromArgument$1(methodName, path, targetDoc) {
// If required, replace the FieldPath Compat class with with the firestore-exp
// FieldPath.
path = util.getModularInstance(path);
if (path instanceof FieldPath) {
return path._internalPath;
}
else if (typeof path === 'string') {
return fieldPathFromDotSeparatedString(methodName, path);
}
else {
const message = 'Field path arguments must be of type string or ';
throw createError(message, methodName,
/* hasConverter= */ false,
/* path= */ undefined, targetDoc);
}
}
/**
* Matches any characters in a field path string that are reserved.
*/
const FIELD_PATH_RESERVED = new RegExp('[~\\*/\\[\\]]');
/**
* Wraps fromDotSeparatedString with an error message about the method that
* was thrown.
* @param methodName - The publicly visible method name
* @param path - The dot-separated string form of a field path which will be
* split on dots.
* @param targetDoc - The document against which the field path will be
* evaluated.
*/
function fieldPathFromDotSeparatedString(methodName, path, targetDoc) {
const found = path.search(FIELD_PATH_RESERVED);
if (found >= 0) {
throw createError(`Invalid field path (${path}). Paths must not contain ` +
`'~', '*', '/', '[', or ']'`, methodName,
/* hasConverter= */ false,
/* path= */ undefined, targetDoc);
}
try {
return new FieldPath(...path.split('.'))._internalPath;
}
catch (e) {
throw createError(`Invalid field path (${path}). Paths must not be empty, ` +
`begin with '.', end with '.', or contain '..'`, methodName,
/* hasConverter= */ false,
/* path= */ undefined, targetDoc);
}
}
function createError(reason, methodName, hasConverter, path, targetDoc) {
const hasPath = path && !path.isEmpty();
const hasDocument = targetDoc !== undefined;
let message = `Function ${methodName}() called with invalid data`;
if (hasConverter) {
message += ' (via `toFirestore()`)';
}
message += '. ';
let description = '';
if (hasPath || hasDocument) {
description += ' (found';
if (hasPath) {
description += ` in field ${path}`;
}
if (hasDocument) {
description += ` in document ${targetDoc}`;
}
description += ')';
}
return new FirestoreError(Code.INVALID_ARGUMENT, message + reason + description);
}
/** Checks `haystack` if FieldPath `needle` is present. Runs in O(n). */
function fieldMaskContains(haystack, needle) {
return haystack.some(v => v.isEqual(needle));
}
/**
* @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 `DocumentSnapshot` contains data read from a document in your Firestore
* database. The data can be extracted with `.data()` or `.get(<field>)` to
* get a specific field.
*
* For a `DocumentSnapshot` that points to a non-existing document, any data
* access will return 'undefined'. You can use the `exists()` method to
* explicitly verify a document's existence.
*/
class DocumentSnapshot {
// Note: This class is stripped down version of the DocumentSnapshot in
// the legacy SDK. The changes are:
// - No support for SnapshotMetadata.
// - No support for SnapshotOptions.
/** @hideconstructor protected */
constructor(_firestore, _userDataWriter, _key, _document, _converter) {
this._firestore = _firestore;
this._userDataWriter = _userDataWriter;
this._key = _key;
this._document = _document;
this._converter = _converter;
}
/** Property of the `DocumentSnapshot` that provides the document's ID. */
get id() {
return this._key.path.lastSegment();
}
/**
* The `DocumentReference` for the document included in the `DocumentSnapshot`.
*/
get ref() {
return new DocumentReference(this._firestore, this._converter, this._key);
}
/**
* Signals whether or not the document at the snapshot's location exists.
*
* @returns true if the document exists.
*/
exists() {
return this._document !== null;
}
/**
* Retrieves all fields in the document as an `Object`. Returns `undefined` if
* the document doesn't exist.
*
* @returns An `Object` containing all fields in the document or `undefined`
* if the document doesn't exist.
*/
data() {
if (!this._document) {
return undefined;
}
else if (this._converter) {
// We only want to use the converter and create a new DocumentSnapshot
// if a converter has been provided.
const snapshot = new QueryDocumentSnapshot(this._firestore, this._userDataWriter, this._key, this._document,
/* converter= */ null);
return this._converter.fromFirestore(snapshot);
}
else {
return this._userDataWriter.convertValue(this._document.data.value);
}
}
/**
* Retrieves the field specified by `fieldPath`. Returns `undefined` if the
* document or field doesn't exist.
*
* @param fieldPath - The path (for example 'foo' or 'foo.bar') to a specific
* field.
* @returns The data at the specified field location or undefined if no such
* field exists in the document.
*/
// We are using `any` here to avoid an explicit cast by our users.
// eslint-disable-next-line @typescript-eslint/no-explicit-any
get(fieldPath) {
if (this._document) {
const value = this._document.data.field(fieldPathFromArgument('DocumentSnapshot.get', fieldPath));
if (value !== null) {
return this._userDataWriter.convertValue(value);
}
}
return undefined;
}
}
/**
* A `QueryDocumentSnapshot` contains data read from a document in your
* Firestore database as part of a query. The document is guaranteed to exist
* and its data can be extracted with `.data()` or `.get(<field>)` to get a
* specific field.
*
* A `QueryDocumentSnapshot` offers the same API surface as a
* `DocumentSnapshot`. Since query results contain only existing documents, the
* `exists` property will always be true and `data()` will never return
* 'undefined'.
*/
class QueryDocumentSnapshot extends DocumentSnapshot {
/**
* Retrieves all fields in the document as an `Object`.
*
* @override
* @returns An `Object` containing all fields in the document.
*/
data() {
return super.data();
}
}
/**
* A `QuerySnapshot` contains zero or more `DocumentSnapshot` objects
* representing the results of a query. The documents can be accessed as an
* array via the `docs` property or enumerated using the `forEach` method. The
* number of documents can be determined via the `empty` and `size`
* properties.
*/
class QuerySnapshot {
/** @hideconstructor */
constructor(_query, _docs) {
this._docs = _docs;
this.query = _query;
}
/** An array of all the documents in the `QuerySnapshot`. */
get docs() {
return [...this._docs];
}
/** The number of documents in the `QuerySnapshot`. */
get size() {
return this.docs.length;
}
/** True if there are no documents in the `QuerySnapshot`. */
get empty() {
return this.docs.length === 0;
}
/**
* Enumerates all of the documents in the `QuerySnapshot`.
*
* @param callback - A callback to be called with a `QueryDocumentSnapshot` for
* each document in the snapshot.
* @param thisArg - The `this` binding for the callback.
*/
forEach(callback, thisArg) {
this._docs.forEach(callback, thisArg);
}
}
/**
* Returns true if the provided snapshots are equal.
*
* @param left - A snapshot to compare.
* @param right - A snapshot to compare.
* @returns true if the snapshots are equal.
*/
function snapshotEqual(left, right) {
left = util.getModularInstance(left);
right = util.getModularInstance(right);
if (left instanceof DocumentSnapshot && right instanceof DocumentSnapshot) {
return (left._firestore === right._firestore &&
left._key.isEqual(right._key) &&
(left._document === null
? right._document === null
: left._document.isEqual(right._document)) &&
left._converter === right._converter);
}
else if (left instanceof QuerySnapshot && right instanceof QuerySnapshot) {
return (queryEqual(left.query, right.query) &&
arrayEquals(left.docs, right.docs, snapshotEqual));
}
return false;
}
/**
* Helper that calls `fromDotSeparatedString()` but wraps any error thrown.
*/
function fieldPathFromArgument(methodName, arg) {
if (typeof arg === 'string') {
return fieldPathFromDotSeparatedString(methodName, arg);
}
else if (arg instanceof FieldPath) {
return arg._internalPath;
}
else {
return arg._delegate._internalPath;
}
}
/**
* @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.
*/
function validateHasExplicitOrderByForLimitToLast(query) {
if (query.limitType === "L" /* LimitType.Last */ &&
query.explicitOrderBy.length === 0) {
throw new FirestoreError(Code.UNIMPLEMENTED, 'limitToLast() queries require specifying at least one orderBy() clause');
}
}
/**
* An `AppliableConstraint` is an abstraction of a constraint that can be applied
* to a Firestore query.
*/
class AppliableConstraint {
}
/**
* A `QueryConstraint` is used to narrow the set of documents returned by a
* Firestore query. `QueryConstraint`s are created by invoking {@link where},
* {@link orderBy}, {@link (startAt:1)}, {@link (startAfter:1)}, {@link
* (endBefore:1)}, {@link (endAt:1)}, {@link limit}, {@link limitToLast} and
* can then be passed to {@link (query:1)} to create a new query instance that
* also contains this `QueryConstraint`.
*/
class QueryConstraint extends AppliableConstraint {
}
function query(query, queryConstraint, ...additionalQueryConstraints) {
let queryConstraints = [];
if (queryConstraint instanceof AppliableConstraint) {
queryConstraints.push(queryConstraint);
}
queryConstraints = queryConstraints.concat(additionalQueryConstraints);
validateQueryConstraintArray(queryConstraints);
for (const constraint of queryConstraints) {
query = constraint._apply(query);
}
return query;
}
/**
* A `QueryFieldFilterConstraint` is used to narrow the set of documents returned by
* a Firestore query by filtering on one or more document fields.
* `QueryFieldFilterConstraint`s are created by invoking {@link where} and can then
* be passed to {@link (query:1)} to create a new query instance that also contains
* this `QueryFieldFilterConstraint`.
*/
class QueryFieldFilterConstraint extends QueryConstraint {
/**
* @internal
*/
constructor(_field, _op, _value) {
super();
this._field = _field;
this._op = _op;
this._value = _value;
/** The type of this query constraint */
this.type = 'where';
}
static _create(_field, _op, _value) {
return new QueryFieldFilterConstraint(_field, _op, _value);
}
_apply(query) {
const filter = this._parse(query);
validateNewFieldFilter(query._query, filter);
return new Query(query.firestore, query.converter, queryWithAddedFilter(query._query, filter));
}
_parse(query) {
const reader = newUserDataReader(query.firestore);
const filter = newQueryFilter(query._query, 'where', reader, query.firestore._databaseId, this._field, this._op, this._value);
return filter;
}
}
/**
* Creates a {@link QueryFieldFilterConstraint} that enforces that documents
* must contain the specified field and that the value should satisfy the
* relation constraint provided.
*
* @param fieldPath - The path to compare
* @param opStr - The operation string (e.g "&lt;", "&lt;=", "==", "&lt;",
* "&lt;=", "!=").
* @param value - The value for comparison
* @returns The created {@link QueryFieldFilterConstraint}.
*/
function where(fieldPath, opStr, value) {
const op = opStr;
const field = fieldPathFromArgument('where', fieldPath);
return QueryFieldFilterConstraint._create(field, op, value);
}
/**
* A `QueryCompositeFilterConstraint` is used to narrow the set of documents
* returned by a Firestore query by performing the logical OR or AND of multiple
* {@link QueryFieldFilterConstraint}s or {@link QueryCompositeFilterConstraint}s.
* `QueryCompositeFilterConstraint`s are created by invoking {@link or} or
* {@link and} and can then be passed to {@link (query:1)} to create a new query
* instance that also contains the `QueryCompositeFilterConstraint`.
*/
class QueryCompositeFilterConstraint extends AppliableConstraint {
/**
* @internal
*/
constructor(
/** The type of this query constraint */
type, _queryConstraints) {
super();
this.type = type;
this._queryConstraints = _queryConstraints;
}
static _create(type, _queryConstraints) {
return new QueryCompositeFilterConstraint(type, _queryConstraints);
}
_parse(query) {
const parsedFilters = this._queryConstraints
.map(queryConstraint => {
return queryConstraint._parse(query);
})
.filter(parsedFilter => parsedFilter.getFilters().length > 0);
if (parsedFilters.length === 1) {
return parsedFilters[0];
}
return CompositeFilter.create(parsedFilters, this._getOperator());
}
_apply(query) {
const parsedFilter = this._parse(query);
if (parsedFilter.getFilters().length === 0) {
// Return the existing query if not adding any more filters (e.g. an empty
// composite filter).
return query;
}
validateNewFilter(query._query, parsedFilter);
return new Query(query.firestore, query.converter, queryWithAddedFilter(query._query, parsedFilter));
}
_getQueryConstraints() {
return this._queryConstraints;
}
_getOperator() {
return this.type === 'and' ? "and" /* CompositeOperator.AND */ : "or" /* CompositeOperator.OR */;
}
}
/**
* Creates a new {@link QueryCompositeFilterConstraint} that is a disjunction of
* the given filter constraints. A disjunction filter includes a document if it
* satisfies any of the given filters.
*
* @param queryConstraints - Optional. The list of
* {@link QueryFilterConstraint}s to perform a disjunction for. These must be
* created with calls to {@link where}, {@link or}, or {@link and}.
* @returns The newly created {@link QueryCompositeFilterConstraint}.
*/
function or(...queryConstraints) {
// Only support QueryFilterConstraints
queryConstraints.forEach(queryConstraint => validateQueryFilterConstraint('or', queryConstraint));
return QueryCompositeFilterConstraint._create("or" /* CompositeOperator.OR */, queryConstraints);
}
/**
* Creates a new {@link QueryCompositeFilterConstraint} that is a conjunction of
* the given filter constraints. A conjunction filter includes a document if it
* satisfies all of the given filters.
*
* @param queryConstraints - Optional. The list of
* {@link QueryFilterConstraint}s to perform a conjunction for. These must be
* created with calls to {@link where}, {@link or}, or {@link and}.
* @returns The newly created {@link QueryCompositeFilterConstraint}.
*/
function and(...queryConstraints) {
// Only support QueryFilterConstraints
queryConstraints.forEach(queryConstraint => validateQueryFilterConstraint('and', queryConstraint));
return QueryCompositeFilterConstraint._create("and" /* CompositeOperator.AND */, queryConstraints);
}
/**
* A `QueryOrderByConstraint` is used to sort the set of documents returned by a
* Firestore query. `QueryOrderByConstraint`s are created by invoking
* {@link orderBy} and can then be passed to {@link (query:1)} to create a new query
* instance that also contains this `QueryOrderByConstraint`.
*
* Note: Documents that do not contain the orderBy field will not be present in
* the query result.
*/
class QueryOrderByConstraint extends QueryConstraint {
/**
* @internal
*/
constructor(_field, _direction) {
super();
this._field = _field;
this._direction = _direction;
/** The type of this query constraint */
this.type = 'orderBy';
}
static _create(_field, _direction) {
return new QueryOrderByConstraint(_field, _direction);
}
_apply(query) {
const orderBy = newQueryOrderBy(query._query, this._field, this._direction);
return new Query(query.firestore, query.converter, queryWithAddedOrderBy(query._query, orderBy));
}
}
/**
* Creates a {@link QueryOrderByConstraint} that sorts the query result by the
* specified field, optionally in descending order instead of ascending.
*
* Note: Documents that do not contain the specified field will not be present
* in the query result.
*
* @param fieldPath - The field to sort by.
* @param directionStr - Optional direction to sort by ('asc' or 'desc'). If
* not specified, order will be ascending.
* @returns The created {@link QueryOrderByConstraint}.
*/
function orderBy(fieldPath, directionStr = 'asc') {
const direction = directionStr;
const path = fieldPathFromArgument('orderBy', fieldPath);
return QueryOrderByConstraint._create(path, direction);
}
/**
* A `QueryLimitConstraint` is used to limit the number of documents returned by
* a Firestore query.
* `QueryLimitConstraint`s are created by invoking {@link limit} or
* {@link limitToLast} and can then be passed to {@link (query:1)} to create a new
* query instance that also contains this `QueryLimitConstraint`.
*/
class QueryLimitConstraint extends QueryConstraint {
/**
* @internal
*/
constructor(
/** The type of this query constraint */
type, _limit, _limitType) {
super();
this.type = type;
this._limit = _limit;
this._limitType = _limitType;
}
static _create(type, _limit, _limitType) {
return new QueryLimitConstraint(type, _limit, _limitType);
}
_apply(query) {
return new Query(query.firestore, query.converter, queryWithLimit(query._query, this._limit, this._limitType));
}
}
/**
* Creates a {@link QueryLimitConstraint} that only returns the first matching
* documents.
*
* @param limit - The maximum number of items to return.
* @returns The created {@link QueryLimitConstraint}.
*/
function limit(limit) {
validatePositiveNumber('limit', limit);
return QueryLimitConstraint._create('limit', limit, "F" /* LimitType.First */);
}
/**
* Creates a {@link QueryLimitConstraint} that only returns the last matching
* documents.
*
* You must specify at least one `orderBy` clause for `limitToLast` queries,
* otherwise an exception will be thrown during execution.
*
* @param limit - The maximum number of items to return.
* @returns The created {@link QueryLimitConstraint}.
*/
function limitToLast(limit) {
validatePositiveNumber('limitToLast', limit);
return QueryLimitConstraint._create('limitToLast', limit, "L" /* LimitType.Last */);
}
/**
* A `QueryStartAtConstraint` is used to exclude documents from the start of a
* result set returned by a Firestore query.
* `QueryStartAtConstraint`s are created by invoking {@link (startAt:1)} or
* {@link (startAfter:1)} and can then be passed to {@link (query:1)} to create a
* new query instance that also contains this `QueryStartAtConstraint`.
*/
class QueryStartAtConstraint extends QueryConstraint {
/**
* @internal
*/
constructor(
/** The type of this query constraint */
type, _docOrFields, _inclusive) {
super();
this.type = type;
this._docOrFields = _docOrFields;
this._inclusive = _inclusive;
}
static _create(type, _docOrFields, _inclusive) {
return new QueryStartAtConstraint(type, _docOrFields, _inclusive);
}
_apply(query) {
const bound = newQueryBoundFromDocOrFields(query, this.type, this._docOrFields, this._inclusive);
return new Query(query.firestore, query.converter, queryWithStartAt(query._query, bound));
}
}
function startAt(...docOrFields) {
return QueryStartAtConstraint._create('startAt', docOrFields,
/*inclusive=*/ true);
}
function startAfter(...docOrFields) {
return QueryStartAtConstraint._create('startAfter', docOrFields,
/*inclusive=*/ false);
}
/**
* A `QueryEndAtConstraint` is used to exclude documents from the end of a
* result set returned by a Firestore query.
* `QueryEndAtConstraint`s are created by invoking {@link (endAt:1)} or
* {@link (endBefore:1)} and can then be passed to {@link (query:1)} to create a new
* query instance that also contains this `QueryEndAtConstraint`.
*/
class QueryEndAtConstraint extends QueryConstraint {
/**
* @internal
*/
constructor(
/** The type of this query constraint */
type, _docOrFields, _inclusive) {
super();
this.type = type;
this._docOrFields = _docOrFields;
this._inclusive = _inclusive;
}
static _create(type, _docOrFields, _inclusive) {
return new QueryEndAtConstraint(type, _docOrFields, _inclusive);
}
_apply(query) {
const bound = newQueryBoundFromDocOrFields(query, this.type, this._docOrFields, this._inclusive);
return new Query(query.firestore, query.converter, queryWithEndAt(query._query, bound));
}
}
function endBefore(...docOrFields) {
return QueryEndAtConstraint._create('endBefore', docOrFields,
/*inclusive=*/ false);
}
function endAt(...docOrFields) {
return QueryEndAtConstraint._create('endAt', docOrFields,
/*inclusive=*/ true);
}
/** Helper function to create a bound from a document or fields */
function newQueryBoundFromDocOrFields(query, methodName, docOrFields, inclusive) {
docOrFields[0] = util.getModularInstance(docOrFields[0]);
if (docOrFields[0] instanceof DocumentSnapshot) {
return newQueryBoundFromDocument(query._query, query.firestore._databaseId, methodName, docOrFields[0]._document, inclusive);
}
else {
const reader = newUserDataReader(query.firestore);
return newQueryBoundFromFields(query._query, query.firestore._databaseId, reader, methodName, docOrFields, inclusive);
}
}
function newQueryFilter(query, methodName, dataReader, databaseId, fieldPath, op, value) {
let fieldValue;
if (fieldPath.isKeyField()) {
if (op === "array-contains" /* Operator.ARRAY_CONTAINS */ || op === "array-contains-any" /* Operator.ARRAY_CONTAINS_ANY */) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Invalid Query. You can't perform '${op}' queries on documentId().`);
}
else if (op === "in" /* Operator.IN */ || op === "not-in" /* Operator.NOT_IN */) {
validateDisjunctiveFilterElements(value, op);
const referenceList = [];
for (const arrayValue of value) {
referenceList.push(parseDocumentIdValue(databaseId, query, arrayValue));
}
fieldValue = { arrayValue: { values: referenceList } };
}
else {
fieldValue = parseDocumentIdValue(databaseId, query, value);
}
}
else {
if (op === "in" /* Operator.IN */ ||
op === "not-in" /* Operator.NOT_IN */ ||
op === "array-contains-any" /* Operator.ARRAY_CONTAINS_ANY */) {
validateDisjunctiveFilterElements(value, op);
}
fieldValue = parseQueryValue(dataReader, methodName, value,
/* allowArrays= */ op === "in" /* Operator.IN */ || op === "not-in" /* Operator.NOT_IN */);
}
const filter = FieldFilter.create(fieldPath, op, fieldValue);
return filter;
}
function newQueryOrderBy(query, fieldPath, direction) {
if (query.startAt !== null) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Invalid query. You must not call startAt() or startAfter() before ' +
'calling orderBy().');
}
if (query.endAt !== null) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Invalid query. You must not call endAt() or endBefore() before ' +
'calling orderBy().');
}
const orderBy = new OrderBy(fieldPath, direction);
return orderBy;
}
/**
* Create a `Bound` from a query and a document.
*
* Note that the `Bound` will always include the key of the document
* and so only the provided document will compare equal to the returned
* position.
*
* Will throw if the document does not contain all fields of the order by
* of the query or if any of the fields in the order by are an uncommitted
* server timestamp.
*/
function newQueryBoundFromDocument(query, databaseId, methodName, doc, inclusive) {
if (!doc) {
throw new FirestoreError(Code.NOT_FOUND, `Can't use a DocumentSnapshot that doesn't exist for ` +
`${methodName}().`);
}
const components = [];
// Because people expect to continue/end a query at the exact document
// provided, we need to use the implicit sort order rather than the explicit
// sort order, because it's guaranteed to contain the document key. That way
// the position becomes unambiguous and the query continues/ends exactly at
// the provided document. Without the key (by using the explicit sort
// orders), multiple documents could match the position, yielding duplicate
// results.
for (const orderBy of queryNormalizedOrderBy(query)) {
if (orderBy.field.isKeyField()) {
components.push(refValue(databaseId, doc.key));
}
else {
const value = doc.data.field(orderBy.field);
if (isServerTimestamp(value)) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Invalid query. You are trying to start or end a query using a ' +
'document for which the field "' +
orderBy.field +
'" is an uncommitted server timestamp. (Since the value of ' +
'this field is unknown, you cannot start/end a query with it.)');
}
else if (value !== null) {
components.push(value);
}
else {
const field = orderBy.field.canonicalString();
throw new FirestoreError(Code.INVALID_ARGUMENT, `Invalid query. You are trying to start or end a query using a ` +
`document for which the field '${field}' (used as the ` +
`orderBy) does not exist.`);
}
}
}
return new Bound(components, inclusive);
}
/**
* Converts a list of field values to a `Bound` for the given query.
*/
function newQueryBoundFromFields(query, databaseId, dataReader, methodName, values, inclusive) {
// Use explicit order by's because it has to match the query the user made
const orderBy = query.explicitOrderBy;
if (values.length > orderBy.length) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Too many arguments provided to ${methodName}(). ` +
`The number of arguments must be less than or equal to the ` +
`number of orderBy() clauses`);
}
const components = [];
for (let i = 0; i < values.length; i++) {
const rawValue = values[i];
const orderByComponent = orderBy[i];
if (orderByComponent.field.isKeyField()) {
if (typeof rawValue !== 'string') {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Invalid query. Expected a string for document ID in ` +
`${methodName}(), but got a ${typeof rawValue}`);
}
if (!isCollectionGroupQuery(query) && rawValue.indexOf('/') !== -1) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Invalid query. When querying a collection and ordering by documentId(), ` +
`the value passed to ${methodName}() must be a plain document ID, but ` +
`'${rawValue}' contains a slash.`);
}
const path = query.path.child(ResourcePath.fromString(rawValue));
if (!DocumentKey.isDocumentKey(path)) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Invalid query. When querying a collection group and ordering by ` +
`documentId(), the value passed to ${methodName}() must result in a ` +
`valid document path, but '${path}' is not because it contains an odd number ` +
`of segments.`);
}
const key = new DocumentKey(path);
components.push(refValue(databaseId, key));
}
else {
const wrapped = parseQueryValue(dataReader, methodName, rawValue);
components.push(wrapped);
}
}
return new Bound(components, inclusive);
}
/**
* Parses the given `documentIdValue` into a `ReferenceValue`, throwing
* appropriate errors if the value is anything other than a `DocumentReference`
* or `string`, or if the string is malformed.
*/
function parseDocumentIdValue(databaseId, query, documentIdValue) {
documentIdValue = util.getModularInstance(documentIdValue);
if (typeof documentIdValue === 'string') {
if (documentIdValue === '') {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Invalid query. When querying with documentId(), you ' +
'must provide a valid document ID, but it was an empty string.');
}
if (!isCollectionGroupQuery(query) && documentIdValue.indexOf('/') !== -1) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Invalid query. When querying a collection by ` +
`documentId(), you must provide a plain document ID, but ` +
`'${documentIdValue}' contains a '/' character.`);
}
const path = query.path.child(ResourcePath.fromString(documentIdValue));
if (!DocumentKey.isDocumentKey(path)) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Invalid query. When querying a collection group by ` +
`documentId(), the value provided must result in a valid document path, ` +
`but '${path}' is not because it has an odd number of segments (${path.length}).`);
}
return refValue(databaseId, new DocumentKey(path));
}
else if (documentIdValue instanceof DocumentReference) {
return refValue(databaseId, documentIdValue._key);
}
else {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Invalid query. When querying with documentId(), you must provide a valid ` +
`string or a DocumentReference, but it was: ` +
`${valueDescription(documentIdValue)}.`);
}
}
/**
* Validates that the value passed into a disjunctive filter satisfies all
* array requirements.
*/
function validateDisjunctiveFilterElements(value, operator) {
if (!Array.isArray(value) || value.length === 0) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Invalid Query. A non-empty array is required for ' +
`'${operator.toString()}' filters.`);
}
}
/**
* Given an operator, returns the set of operators that cannot be used with it.
*
* This is not a comprehensive check, and this function should be removed in the
* long term. Validations should occur in the Firestore backend.
*
* Operators in a query must adhere to the following set of rules:
* 1. Only one inequality per query.
* 2. `NOT_IN` cannot be used with array, disjunctive, or `NOT_EQUAL` operators.
*/
function conflictingOps(op) {
switch (op) {
case "!=" /* Operator.NOT_EQUAL */:
return ["!=" /* Operator.NOT_EQUAL */, "not-in" /* Operator.NOT_IN */];
case "array-contains-any" /* Operator.ARRAY_CONTAINS_ANY */:
case "in" /* Operator.IN */:
return ["not-in" /* Operator.NOT_IN */];
case "not-in" /* Operator.NOT_IN */:
return [
"array-contains-any" /* Operator.ARRAY_CONTAINS_ANY */,
"in" /* Operator.IN */,
"not-in" /* Operator.NOT_IN */,
"!=" /* Operator.NOT_EQUAL */
];
default:
return [];
}
}
function validateNewFieldFilter(query, fieldFilter) {
const conflictingOp = findOpInsideFilters(query.filters, conflictingOps(fieldFilter.op));
if (conflictingOp !== null) {
// Special case when it's a duplicate op to give a slightly clearer error message.
if (conflictingOp === fieldFilter.op) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Invalid query. You cannot use more than one ' +
`'${fieldFilter.op.toString()}' filter.`);
}
else {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Invalid query. You cannot use '${fieldFilter.op.toString()}' filters ` +
`with '${conflictingOp.toString()}' filters.`);
}
}
}
function validateNewFilter(query, filter) {
let testQuery = query;
const subFilters = filter.getFlattenedFilters();
for (const subFilter of subFilters) {
validateNewFieldFilter(testQuery, subFilter);
testQuery = queryWithAddedFilter(testQuery, subFilter);
}
}
// Checks if any of the provided filter operators are included in the given list of filters and
// returns the first one that is, or null if none are.
function findOpInsideFilters(filters, operators) {
for (const filter of filters) {
for (const fieldFilter of filter.getFlattenedFilters()) {
if (operators.indexOf(fieldFilter.op) >= 0) {
return fieldFilter.op;
}
}
}
return null;
}
function validateQueryFilterConstraint(functionName, queryConstraint) {
if (!(queryConstraint instanceof QueryFieldFilterConstraint) &&
!(queryConstraint instanceof QueryCompositeFilterConstraint)) {
throw new FirestoreError(Code.INVALID_ARGUMENT, `Function ${functionName}() requires AppliableConstraints created with a call to 'where(...)', 'or(...)', or 'and(...)'.`);
}
}
function validateQueryConstraintArray(queryConstraint) {
const compositeFilterCount = queryConstraint.filter(filter => filter instanceof QueryCompositeFilterConstraint).length;
const fieldFilterCount = queryConstraint.filter(filter => filter instanceof QueryFieldFilterConstraint).length;
if (compositeFilterCount > 1 ||
(compositeFilterCount > 0 && fieldFilterCount > 0)) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'InvalidQuery. When using composite filters, you cannot use ' +
'more than one filter at the top level. Consider nesting the multiple ' +
'filters within an `and(...)` statement. For example: ' +
'change `query(query, where(...), or(...))` to ' +
'`query(query, and(where(...), or(...)))`.');
}
}
/**
* @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.
*/
/**
* Converts Firestore's internal types to the JavaScript types that we expose
* to the user.
*
* @internal
*/
class AbstractUserDataWriter {
convertValue(value, serverTimestampBehavior = 'none') {
switch (typeOrder(value)) {
case 0 /* TypeOrder.NullValue */:
return null;
case 1 /* TypeOrder.BooleanValue */:
return value.booleanValue;
case 2 /* TypeOrder.NumberValue */:
return normalizeNumber(value.integerValue || value.doubleValue);
case 3 /* TypeOrder.TimestampValue */:
return this.convertTimestamp(value.timestampValue);
case 4 /* TypeOrder.ServerTimestampValue */:
return this.convertServerTimestamp(value, serverTimestampBehavior);
case 5 /* TypeOrder.StringValue */:
return value.stringValue;
case 6 /* TypeOrder.BlobValue */:
return this.convertBytes(normalizeByteString(value.bytesValue));
case 7 /* TypeOrder.RefValue */:
return this.convertReference(value.referenceValue);
case 8 /* TypeOrder.GeoPointValue */:
return this.convertGeoPoint(value.geoPointValue);
case 9 /* TypeOrder.ArrayValue */:
return this.convertArray(value.arrayValue, serverTimestampBehavior);
case 10 /* TypeOrder.ObjectValue */:
return this.convertObject(value.mapValue, serverTimestampBehavior);
default:
throw fail();
}
}
convertObject(mapValue, serverTimestampBehavior) {
return this.convertObjectMap(mapValue.fields, serverTimestampBehavior);
}
/**
* @internal
*/
convertObjectMap(fields, serverTimestampBehavior = 'none') {
const result = {};
forEach(fields, (key, value) => {
result[key] = this.convertValue(value, serverTimestampBehavior);
});
return result;
}
convertGeoPoint(value) {
return new GeoPoint(normalizeNumber(value.latitude), normalizeNumber(value.longitude));
}
convertArray(arrayValue, serverTimestampBehavior) {
return (arrayValue.values || []).map(value => this.convertValue(value, serverTimestampBehavior));
}
convertServerTimestamp(value, serverTimestampBehavior) {
switch (serverTimestampBehavior) {
case 'previous':
const previousValue = getPreviousValue(value);
if (previousValue == null) {
return null;
}
return this.convertValue(previousValue, serverTimestampBehavior);
case 'estimate':
return this.convertTimestamp(getLocalWriteTime(value));
default:
return null;
}
}
convertTimestamp(value) {
const normalizedValue = normalizeTimestamp(value);
return new Timestamp(normalizedValue.seconds, normalizedValue.nanos);
}
convertDocumentKey(name, expectedDatabaseId) {
const resourcePath = ResourcePath.fromString(name);
hardAssert(isValidResourceName(resourcePath));
const databaseId = new DatabaseId(resourcePath.get(1), resourcePath.get(3));
const key = new DocumentKey(resourcePath.popFirst(5));
if (!databaseId.isEqual(expectedDatabaseId)) {
// TODO(b/64130202): Somehow support foreign references.
logError(`Document ${key} contains a document ` +
`reference within a different database (` +
`${databaseId.projectId}/${databaseId.database}) which is not ` +
`supported. It will be treated as a reference in the current ` +
`database (${expectedDatabaseId.projectId}/${expectedDatabaseId.database}) ` +
`instead.`);
}
return key;
}
}
/**
* @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.
*/
/**
* Converts custom model object of type T into `DocumentData` by applying the
* converter if it exists.
*
* This function is used when converting user objects to `DocumentData`
* because we want to provide the user with a more specific error message if
* their `set()` or fails due to invalid data originating from a `toFirestore()`
* call.
*/
function applyFirestoreDataConverter(converter, value, options) {
let convertedValue;
if (converter) {
if (options && (options.merge || options.mergeFields)) {
// Cast to `any` in order to satisfy the union type constraint on
// toFirestore().
// eslint-disable-next-line @typescript-eslint/no-explicit-any
convertedValue = converter.toFirestore(value, options);
}
else {
convertedValue = converter.toFirestore(value);
}
}
else {
convertedValue = value;
}
return convertedValue;
}
class LiteUserDataWriter extends AbstractUserDataWriter {
constructor(firestore) {
super();
this.firestore = firestore;
}
convertBytes(bytes) {
return new Bytes(bytes);
}
convertReference(name) {
const key = this.convertDocumentKey(name, this.firestore._databaseId);
return new DocumentReference(this.firestore, /* converter= */ null, key);
}
}
/**
* Reads the document referred to by the specified document reference.
*
* All documents are directly fetched from the server, even if the document was
* previously read or modified. Recent modifications are only reflected in the
* retrieved `DocumentSnapshot` if they have already been applied by the
* backend. If the client is offline, the read fails. If you like to use
* caching or see local modifications, please use the full Firestore SDK.
*
* @param reference - The reference of the document to fetch.
* @returns A Promise resolved with a `DocumentSnapshot` containing the current
* document contents.
*/
function getDoc(reference) {
reference = cast(reference, DocumentReference);
const datastore = getDatastore(reference.firestore);
const userDataWriter = new LiteUserDataWriter(reference.firestore);
return invokeBatchGetDocumentsRpc(datastore, [reference._key]).then(result => {
hardAssert(result.length === 1);
const document = result[0];
return new DocumentSnapshot(reference.firestore, userDataWriter, reference._key, document.isFoundDocument() ? document : null, reference.converter);
});
}
/**
* Executes the query and returns the results as a {@link QuerySnapshot}.
*
* All queries are executed directly by the server, even if the the query was
* previously executed. Recent modifications are only reflected in the retrieved
* results if they have already been applied by the backend. If the client is
* offline, the operation fails. To see previously cached result and local
* modifications, use the full Firestore SDK.
*
* @param query - The `Query` to execute.
* @returns A Promise that will be resolved with the results of the query.
*/
function getDocs(query) {
query = cast(query, Query);
validateHasExplicitOrderByForLimitToLast(query._query);
const datastore = getDatastore(query.firestore);
const userDataWriter = new LiteUserDataWriter(query.firestore);
return invokeRunQueryRpc(datastore, query._query).then(result => {
const docs = result.map(doc => new QueryDocumentSnapshot(query.firestore, userDataWriter, doc.key, doc, query.converter));
if (query._query.limitType === "L" /* LimitType.Last */) {
// Limit to last queries reverse the orderBy constraint that was
// specified by the user. As such, we need to reverse the order of the
// results to return the documents in the expected order.
docs.reverse();
}
return new QuerySnapshot(query, docs);
});
}
function setDoc(reference, data, options) {
reference = cast(reference, DocumentReference);
const convertedValue = applyFirestoreDataConverter(reference.converter, data, options);
const dataReader = newUserDataReader(reference.firestore);
const parsed = parseSetData(dataReader, 'setDoc', reference._key, convertedValue, reference.converter !== null, options);
const datastore = getDatastore(reference.firestore);
return invokeCommitRpc(datastore, [
parsed.toMutation(reference._key, Precondition.none())
]);
}
function updateDoc(reference, fieldOrUpdateData, value, ...moreFieldsAndValues) {
reference = cast(reference, DocumentReference);
const dataReader = newUserDataReader(reference.firestore);
// For Compat types, we have to "extract" the underlying types before
// performing validation.
fieldOrUpdateData = util.getModularInstance(fieldOrUpdateData);
let parsed;
if (typeof fieldOrUpdateData === 'string' ||
fieldOrUpdateData instanceof FieldPath) {
parsed = parseUpdateVarargs(dataReader, 'updateDoc', reference._key, fieldOrUpdateData, value, moreFieldsAndValues);
}
else {
parsed = parseUpdateData(dataReader, 'updateDoc', reference._key, fieldOrUpdateData);
}
const datastore = getDatastore(reference.firestore);
return invokeCommitRpc(datastore, [
parsed.toMutation(reference._key, Precondition.exists(true))
]);
}
/**
* Deletes the document referred to by the specified `DocumentReference`.
*
* The deletion will only be reflected in document reads that occur after the
* returned promise resolves. If the client is offline, the
* delete fails. If you would like to see local modifications or buffer writes
* until the client is online, use the full Firestore SDK.
*
* @param reference - A reference to the document to delete.
* @returns A `Promise` resolved once the document has been successfully
* deleted from the backend.
*/
function deleteDoc(reference) {
reference = cast(reference, DocumentReference);
const datastore = getDatastore(reference.firestore);
return invokeCommitRpc(datastore, [
new DeleteMutation(reference._key, Precondition.none())
]);
}
/**
* Add a new document to specified `CollectionReference` with the given data,
* assigning it a document ID automatically.
*
* The result of this write will only be reflected in document reads that occur
* after the returned promise resolves. If the client is offline, the
* write fails. If you would like to see local modifications or buffer writes
* until the client is online, use the full Firestore SDK.
*
* @param reference - A reference to the collection to add this document to.
* @param data - An Object containing the data for the new document.
* @throws Error - If the provided input is not a valid Firestore document.
* @returns A `Promise` resolved with a `DocumentReference` pointing to the
* newly created document after it has been written to the backend.
*/
function addDoc(reference, data) {
reference = cast(reference, CollectionReference);
const docRef = doc(reference);
const convertedValue = applyFirestoreDataConverter(reference.converter, data);
const dataReader = newUserDataReader(reference.firestore);
const parsed = parseSetData(dataReader, 'addDoc', docRef._key, convertedValue, docRef.converter !== null, {});
const datastore = getDatastore(reference.firestore);
return invokeCommitRpc(datastore, [
parsed.toMutation(docRef._key, Precondition.exists(false))
]).then(() => docRef);
}
/**
* @license
* Copyright 2022 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.
*/
/**
* Calculates the number of documents in the result set of the given query
* without actually downloading the documents.
*
* Using this function to count the documents is efficient because only the
* final count, not the documents' data, is downloaded. This function can
* count the documents in cases where the result set is prohibitively large to
* download entirely (thousands of documents).
*
* @param query The query whose result set size is calculated.
* @returns A Promise that will be resolved with the count; the count can be
* retrieved from `snapshot.data().count`, where `snapshot` is the
* `AggregateQuerySnapshot` to which the returned Promise resolves.
*/
function getCount(query) {
const countQuerySpec = {
count: count()
};
return getAggregate(query, countQuerySpec);
}
/**
* Calculates the specified aggregations over the documents in the result
* set of the given query without actually downloading the documents.
*
* Using this function to perform aggregations is efficient because only the
* final aggregation values, not the documents' data, are downloaded. This
* function can perform aggregations of the documents in cases where the result
* set is prohibitively large to download entirely (thousands of documents).
*
* @param query The query whose result set is aggregated over.
* @param aggregateSpec An `AggregateSpec` object that specifies the aggregates
* to perform over the result set. The AggregateSpec specifies aliases for each
* aggregate, which can be used to retrieve the aggregate result.
* @example
* ```typescript
* const aggregateSnapshot = await getAggregate(query, {
* countOfDocs: count(),
* totalHours: sum('hours'),
* averageScore: average('score')
* });
*
* const countOfDocs: number = aggregateSnapshot.data().countOfDocs;
* const totalHours: number = aggregateSnapshot.data().totalHours;
* const averageScore: number | null = aggregateSnapshot.data().averageScore;
* ```
*/
function getAggregate(query, aggregateSpec) {
const firestore = cast(query.firestore, Firestore);
const datastore = getDatastore(firestore);
const internalAggregates = mapToArray(aggregateSpec, (aggregate, alias) => {
return new AggregateImpl(alias, aggregate.aggregateType, aggregate._internalFieldPath);
});
// Run the aggregation and convert the results
return invokeRunAggregationQueryRpc(datastore, query._query, internalAggregates).then(aggregateResult => convertToAggregateQuerySnapshot(firestore, query, aggregateResult));
}
function convertToAggregateQuerySnapshot(firestore, query, aggregateResult) {
const userDataWriter = new LiteUserDataWriter(firestore);
const querySnapshot = new AggregateQuerySnapshot(query, userDataWriter, aggregateResult);
return querySnapshot;
}
/**
* Create an AggregateField object that can be used to compute the sum of
* a specified field over a range of documents in the result set of a query.
* @param field Specifies the field to sum across the result set.
*/
function sum(field) {
return new AggregateField('sum', fieldPathFromArgument$1('sum', field));
}
/**
* Create an AggregateField object that can be used to compute the average of
* a specified field over a range of documents in the result set of a query.
* @param field Specifies the field to average across the result set.
*/
function average(field) {
return new AggregateField('avg', fieldPathFromArgument$1('average', field));
}
/**
* Create an AggregateField object that can be used to compute the count of
* documents in the result set of a query.
*/
function count() {
return new AggregateField('count');
}
/**
* Compares two 'AggregateField` instances for equality.
*
* @param left Compare this AggregateField to the `right`.
* @param right Compare this AggregateField to the `left`.
*/
function aggregateFieldEqual(left, right) {
var _a, _b;
return (left instanceof AggregateField &&
right instanceof AggregateField &&
left.aggregateType === right.aggregateType &&
((_a = left._internalFieldPath) === null || _a === void 0 ? void 0 : _a.canonicalString()) ===
((_b = right._internalFieldPath) === null || _b === void 0 ? void 0 : _b.canonicalString()));
}
/**
* Compares two `AggregateQuerySnapshot` instances for equality.
*
* Two `AggregateQuerySnapshot` instances are considered "equal" if they have
* underlying queries that compare equal, and the same data.
*
* @param left - The first `AggregateQuerySnapshot` to compare.
* @param right - The second `AggregateQuerySnapshot` to compare.
*
* @returns `true` if the objects are "equal", as defined above, or `false`
* otherwise.
*/
function aggregateQuerySnapshotEqual(left, right) {
return (queryEqual(left.query, right.query) && util.deepEqual(left.data(), right.data()));
}
/**
* @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.
*/
/**
* Returns a sentinel for use with {@link @firebase/firestore/lite#(updateDoc:1)} or
* {@link @firebase/firestore/lite#(setDoc:1)} with `{merge: true}` to mark a field for deletion.
*/
function deleteField() {
return new DeleteFieldValueImpl('deleteField');
}
/**
* Returns a sentinel used with {@link @firebase/firestore/lite#(setDoc:1)} or {@link @firebase/firestore/lite#(updateDoc:1)} to
* include a server-generated timestamp in the written data.
*/
function serverTimestamp() {
return new ServerTimestampFieldValueImpl('serverTimestamp');
}
/**
* Returns a special value that can be used with {@link @firebase/firestore/lite#(setDoc:1)} or {@link
* @firebase/firestore/lite#(updateDoc:1)} that tells the server to union the given elements with any array
* value that already exists on the server. Each specified element that doesn't
* already exist in the array will be added to the end. If the field being
* modified is not already an array it will be overwritten with an array
* containing exactly the specified elements.
*
* @param elements - The elements to union into the array.
* @returns The `FieldValue` sentinel for use in a call to `setDoc()` or
* `updateDoc()`.
*/
function arrayUnion(...elements) {
// NOTE: We don't actually parse the data until it's used in set() or
// update() since we'd need the Firestore instance to do this.
return new ArrayUnionFieldValueImpl('arrayUnion', elements);
}
/**
* Returns a special value that can be used with {@link (setDoc:1)} or {@link
* updateDoc:1} that tells the server to remove the given elements from any
* array value that already exists on the server. All instances of each element
* specified will be removed from the array. If the field being modified is not
* already an array it will be overwritten with an empty array.
*
* @param elements - The elements to remove from the array.
* @returns The `FieldValue` sentinel for use in a call to `setDoc()` or
* `updateDoc()`
*/
function arrayRemove(...elements) {
// NOTE: We don't actually parse the data until it's used in set() or
// update() since we'd need the Firestore instance to do this.
return new ArrayRemoveFieldValueImpl('arrayRemove', elements);
}
/**
* Returns a special value that can be used with {@link @firebase/firestore/lite#(setDoc:1)} or {@link
* @firebase/firestore/lite#(updateDoc:1)} that tells the server to increment the field's current value by
* the given value.
*
* If either the operand or the current field value uses floating point
* precision, all arithmetic follows IEEE 754 semantics. If both values are
* integers, values outside of JavaScript's safe number range
* (`Number.MIN_SAFE_INTEGER` to `Number.MAX_SAFE_INTEGER`) are also subject to
* precision loss. Furthermore, once processed by the Firestore backend, all
* integer operations are capped between -2^63 and 2^63-1.
*
* If the current field value is not of type `number`, or if the field does not
* yet exist, the transformation sets the field to the given value.
*
* @param n - The value to increment by.
* @returns The `FieldValue` sentinel for use in a call to `setDoc()` or
* `updateDoc()`
*/
function increment(n) {
return new NumericIncrementFieldValueImpl('increment', n);
}
/**
* @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 write batch, used to perform multiple writes as a single atomic unit.
*
* A `WriteBatch` object can be acquired by calling {@link writeBatch}. It
* provides methods for adding writes to the write batch. None of the writes
* will be committed (or visible locally) until {@link WriteBatch.commit} is
* called.
*/
class WriteBatch {
/** @hideconstructor */
constructor(_firestore, _commitHandler) {
this._firestore = _firestore;
this._commitHandler = _commitHandler;
this._mutations = [];
this._committed = false;
this._dataReader = newUserDataReader(_firestore);
}
set(documentRef, data, options) {
this._verifyNotCommitted();
const ref = validateReference(documentRef, this._firestore);
const convertedValue = applyFirestoreDataConverter(ref.converter, data, options);
const parsed = parseSetData(this._dataReader, 'WriteBatch.set', ref._key, convertedValue, ref.converter !== null, options);
this._mutations.push(parsed.toMutation(ref._key, Precondition.none()));
return this;
}
update(documentRef, fieldOrUpdateData, value, ...moreFieldsAndValues) {
this._verifyNotCommitted();
const ref = validateReference(documentRef, this._firestore);
// For Compat types, we have to "extract" the underlying types before
// performing validation.
fieldOrUpdateData = util.getModularInstance(fieldOrUpdateData);
let parsed;
if (typeof fieldOrUpdateData === 'string' ||
fieldOrUpdateData instanceof FieldPath) {
parsed = parseUpdateVarargs(this._dataReader, 'WriteBatch.update', ref._key, fieldOrUpdateData, value, moreFieldsAndValues);
}
else {
parsed = parseUpdateData(this._dataReader, 'WriteBatch.update', ref._key, fieldOrUpdateData);
}
this._mutations.push(parsed.toMutation(ref._key, Precondition.exists(true)));
return this;
}
/**
* Deletes the document referred to by the provided {@link DocumentReference}.
*
* @param documentRef - A reference to the document to be deleted.
* @returns This `WriteBatch` instance. Used for chaining method calls.
*/
delete(documentRef) {
this._verifyNotCommitted();
const ref = validateReference(documentRef, this._firestore);
this._mutations = this._mutations.concat(new DeleteMutation(ref._key, Precondition.none()));
return this;
}
/**
* Commits all of the writes in this write batch as a single atomic unit.
*
* The result of these writes will only be reflected in document reads that
* occur after the returned promise resolves. If the client is offline, the
* write fails. If you would like to see local modifications or buffer writes
* until the client is online, use the full Firestore SDK.
*
* @returns A `Promise` resolved once all of the writes in the batch have been
* successfully written to the backend as an atomic unit (note that it won't
* resolve while you're offline).
*/
commit() {
this._verifyNotCommitted();
this._committed = true;
if (this._mutations.length > 0) {
return this._commitHandler(this._mutations);
}
return Promise.resolve();
}
_verifyNotCommitted() {
if (this._committed) {
throw new FirestoreError(Code.FAILED_PRECONDITION, 'A write batch can no longer be used after commit() ' +
'has been called.');
}
}
}
function validateReference(documentRef, firestore) {
documentRef = util.getModularInstance(documentRef);
if (documentRef.firestore !== firestore) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Provided document reference is from a different Firestore instance.');
}
else {
return documentRef;
}
}
/**
* Creates a write batch, used for performing multiple writes as a single
* atomic operation. The maximum number of writes allowed in a single WriteBatch
* is 500.
*
* The result of these writes will only be reflected in document reads that
* occur after the returned promise resolves. If the client is offline, the
* write fails. If you would like to see local modifications or buffer writes
* until the client is online, use the full Firestore SDK.
*
* @returns A `WriteBatch` that can be used to atomically execute multiple
* writes.
*/
function writeBatch(firestore) {
firestore = cast(firestore, Firestore);
const datastore = getDatastore(firestore);
return new WriteBatch(firestore, writes => invokeCommitRpc(datastore, writes));
}
/**
* @license
* Copyright 2022 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 DEFAULT_TRANSACTION_OPTIONS = {
maxAttempts: 5
};
function validateTransactionOptions(options) {
if (options.maxAttempts < 1) {
throw new FirestoreError(Code.INVALID_ARGUMENT, 'Max attempts must be at least 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.
*/
/**
* Internal transaction object responsible for accumulating the mutations to
* perform and the base versions for any documents read.
*/
class Transaction$1 {
constructor(datastore) {
this.datastore = datastore;
// The version of each document that was read during this transaction.
this.readVersions = new Map();
this.mutations = [];
this.committed = false;
/**
* A deferred usage error that occurred previously in this transaction that
* will cause the transaction to fail once it actually commits.
*/
this.lastTransactionError = null;
/**
* Set of documents that have been written in the transaction.
*
* When there's more than one write to the same key in a transaction, any
* writes after the first are handled differently.
*/
this.writtenDocs = new Set();
}
async lookup(keys) {
this.ensureCommitNotCalled();
if (this.mutations.length > 0) {
this.lastTransactionError = new FirestoreError(Code.INVALID_ARGUMENT, 'Firestore transactions require all reads to be executed before all writes.');
throw this.lastTransactionError;
}
const docs = await invokeBatchGetDocumentsRpc(this.datastore, keys);
docs.forEach(doc => this.recordVersion(doc));
return docs;
}
set(key, data) {
this.write(data.toMutation(key, this.precondition(key)));
this.writtenDocs.add(key.toString());
}
update(key, data) {
try {
this.write(data.toMutation(key, this.preconditionForUpdate(key)));
}
catch (e) {
this.lastTransactionError = e;
}
this.writtenDocs.add(key.toString());
}
delete(key) {
this.write(new DeleteMutation(key, this.precondition(key)));
this.writtenDocs.add(key.toString());
}
async commit() {
this.ensureCommitNotCalled();
if (this.lastTransactionError) {
throw this.lastTransactionError;
}
const unwritten = this.readVersions;
// For each mutation, note that the doc was written.
this.mutations.forEach(mutation => {
unwritten.delete(mutation.key.toString());
});
// For each document that was read but not written to, we want to perform
// a `verify` operation.
unwritten.forEach((_, path) => {
const key = DocumentKey.fromPath(path);
this.mutations.push(new VerifyMutation(key, this.precondition(key)));
});
await invokeCommitRpc(this.datastore, this.mutations);
this.committed = true;
}
recordVersion(doc) {
let docVersion;
if (doc.isFoundDocument()) {
docVersion = doc.version;
}
else if (doc.isNoDocument()) {
// Represent a deleted doc using SnapshotVersion.min().
docVersion = SnapshotVersion.min();
}
else {
throw fail();
}
const existingVersion = this.readVersions.get(doc.key.toString());
if (existingVersion) {
if (!docVersion.isEqual(existingVersion)) {
// This transaction will fail no matter what.
throw new FirestoreError(Code.ABORTED, 'Document version changed between two reads.');
}
}
else {
this.readVersions.set(doc.key.toString(), docVersion);
}
}
/**
* Returns the version of this document when it was read in this transaction,
* as a precondition, or no precondition if it was not read.
*/
precondition(key) {
const version = this.readVersions.get(key.toString());
if (!this.writtenDocs.has(key.toString()) && version) {
if (version.isEqual(SnapshotVersion.min())) {
return Precondition.exists(false);
}
else {
return Precondition.updateTime(version);
}
}
else {
return Precondition.none();
}
}
/**
* Returns the precondition for a document if the operation is an update.
*/
preconditionForUpdate(key) {
const version = this.readVersions.get(key.toString());
// The first time a document is written, we want to take into account the
// read time and existence
if (!this.writtenDocs.has(key.toString()) && version) {
if (version.isEqual(SnapshotVersion.min())) {
// The document doesn't exist, so fail the transaction.
// This has to be validated locally because you can't send a
// precondition that a document does not exist without changing the
// semantics of the backend write to be an insert. This is the reverse
// of what we want, since we want to assert that the document doesn't
// exist but then send the update and have it fail. Since we can't
// express that to the backend, we have to validate locally.
// Note: this can change once we can send separate verify writes in the
// transaction.
throw new FirestoreError(Code.INVALID_ARGUMENT, "Can't update a document that doesn't exist.");
}
// Document exists, base precondition on document update time.
return Precondition.updateTime(version);
}
else {
// Document was not read, so we just use the preconditions for a blind
// update.
return Precondition.exists(true);
}
}
write(mutation) {
this.ensureCommitNotCalled();
this.mutations.push(mutation);
}
ensureCommitNotCalled() {
}
}
/**
* @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.
*/
/**
* TransactionRunner encapsulates the logic needed to run and retry transactions
* with backoff.
*/
class TransactionRunner {
constructor(asyncQueue, datastore, options, updateFunction, deferred) {
this.asyncQueue = asyncQueue;
this.datastore = datastore;
this.options = options;
this.updateFunction = updateFunction;
this.deferred = deferred;
this.attemptsRemaining = options.maxAttempts;
this.backoff = new ExponentialBackoff(this.asyncQueue, "transaction_retry" /* TimerId.TransactionRetry */);
}
/** Runs the transaction and sets the result on deferred. */
run() {
this.attemptsRemaining -= 1;
this.runWithBackOff();
}
runWithBackOff() {
this.backoff.backoffAndRun(async () => {
const transaction = new Transaction$1(this.datastore);
const userPromise = this.tryRunUpdateFunction(transaction);
if (userPromise) {
userPromise
.then(result => {
this.asyncQueue.enqueueAndForget(() => {
return transaction
.commit()
.then(() => {
this.deferred.resolve(result);
})
.catch(commitError => {
this.handleTransactionError(commitError);
});
});
})
.catch(userPromiseError => {
this.handleTransactionError(userPromiseError);
});
}
});
}
tryRunUpdateFunction(transaction) {
try {
const userPromise = this.updateFunction(transaction);
if (isNullOrUndefined(userPromise) ||
!userPromise.catch ||
!userPromise.then) {
this.deferred.reject(Error('Transaction callback must return a Promise'));
return null;
}
return userPromise;
}
catch (error) {
// Do not retry errors thrown by user provided updateFunction.
this.deferred.reject(error);
return null;
}
}
handleTransactionError(error) {
if (this.attemptsRemaining > 0 && this.isRetryableTransactionError(error)) {
this.attemptsRemaining -= 1;
this.asyncQueue.enqueueAndForget(() => {
this.runWithBackOff();
return Promise.resolve();
});
}
else {
this.deferred.reject(error);
}
}
isRetryableTransactionError(error) {
if (error.name === 'FirebaseError') {
// In transactions, the backend will fail outdated reads with FAILED_PRECONDITION and
// non-matching document versions with ABORTED. These errors should be retried.
const code = error.code;
return (code === 'aborted' ||
code === 'failed-precondition' ||
code === 'already-exists' ||
!isPermanentError(code));
}
return 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.
*/
/**
* Represents an operation scheduled to be run in the future on an AsyncQueue.
*
* It is created via DelayedOperation.createAndSchedule().
*
* Supports cancellation (via cancel()) and early execution (via skipDelay()).
*
* Note: We implement `PromiseLike` instead of `Promise`, as the `Promise` type
* in newer versions of TypeScript defines `finally`, which is not available in
* IE.
*/
class DelayedOperation {
constructor(asyncQueue, timerId, targetTimeMs, op, removalCallback) {
this.asyncQueue = asyncQueue;
this.timerId = timerId;
this.targetTimeMs = targetTimeMs;
this.op = op;
this.removalCallback = removalCallback;
this.deferred = new Deferred();
this.then = this.deferred.promise.then.bind(this.deferred.promise);
// It's normal for the deferred promise to be canceled (due to cancellation)
// and so we attach a dummy catch callback to avoid
// 'UnhandledPromiseRejectionWarning' log spam.
this.deferred.promise.catch(err => { });
}
get promise() {
return this.deferred.promise;
}
/**
* Creates and returns a DelayedOperation that has been scheduled to be
* executed on the provided asyncQueue after the provided delayMs.
*
* @param asyncQueue - The queue to schedule the operation on.
* @param id - A Timer ID identifying the type of operation this is.
* @param delayMs - The delay (ms) before the operation should be scheduled.
* @param op - The operation to run.
* @param removalCallback - A callback to be called synchronously once the
* operation is executed or canceled, notifying the AsyncQueue to remove it
* from its delayedOperations list.
* PORTING NOTE: This exists to prevent making removeDelayedOperation() and
* the DelayedOperation class public.
*/
static createAndSchedule(asyncQueue, timerId, delayMs, op, removalCallback) {
const targetTime = Date.now() + delayMs;
const delayedOp = new DelayedOperation(asyncQueue, timerId, targetTime, op, removalCallback);
delayedOp.start(delayMs);
return delayedOp;
}
/**
* Starts the timer. This is called immediately after construction by
* createAndSchedule().
*/
start(delayMs) {
this.timerHandle = setTimeout(() => this.handleDelayElapsed(), delayMs);
}
/**
* Queues the operation to run immediately (if it hasn't already been run or
* canceled).
*/
skipDelay() {
return this.handleDelayElapsed();
}
/**
* Cancels the operation if it hasn't already been executed or canceled. The
* promise will be rejected.
*
* As long as the operation has not yet been run, calling cancel() provides a
* guarantee that the operation will not be run.
*/
cancel(reason) {
if (this.timerHandle !== null) {
this.clearTimeout();
this.deferred.reject(new FirestoreError(Code.CANCELLED, 'Operation cancelled' + (reason ? ': ' + reason : '')));
}
}
handleDelayElapsed() {
this.asyncQueue.enqueueAndForget(() => {
if (this.timerHandle !== null) {
this.clearTimeout();
return this.op().then(result => {
return this.deferred.resolve(result);
});
}
else {
return Promise.resolve();
}
});
}
clearTimeout() {
if (this.timerHandle !== null) {
this.removalCallback(this);
clearTimeout(this.timerHandle);
this.timerHandle = null;
}
}
}
/**
* @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 LOG_TAG = 'AsyncQueue';
class AsyncQueueImpl {
constructor() {
// The last promise in the queue.
this.tail = Promise.resolve();
// A list of retryable operations. Retryable operations are run in order and
// retried with backoff.
this.retryableOps = [];
// Is this AsyncQueue being shut down? Once it is set to true, it will not
// be changed again.
this._isShuttingDown = false;
// Operations scheduled to be queued in the future. Operations are
// automatically removed after they are run or canceled.
this.delayedOperations = [];
// visible for testing
this.failure = null;
// Flag set while there's an outstanding AsyncQueue operation, used for
// assertion sanity-checks.
this.operationInProgress = false;
// Enabled during shutdown on Safari to prevent future access to IndexedDB.
this.skipNonRestrictedTasks = false;
// List of TimerIds to fast-forward delays for.
this.timerIdsToSkip = [];
// Backoff timer used to schedule retries for retryable operations
this.backoff = new ExponentialBackoff(this, "async_queue_retry" /* TimerId.AsyncQueueRetry */);
// Visibility handler that triggers an immediate retry of all retryable
// operations. Meant to speed up recovery when we regain file system access
// after page comes into foreground.
this.visibilityHandler = () => {
this.backoff.skipBackoff();
};
}
get isShuttingDown() {
return this._isShuttingDown;
}
/**
* Adds a new operation to the queue without waiting for it to complete (i.e.
* we ignore the Promise result).
*/
enqueueAndForget(op) {
// eslint-disable-next-line @typescript-eslint/no-floating-promises
this.enqueue(op);
}
enqueueAndForgetEvenWhileRestricted(op) {
this.verifyNotFailed();
// eslint-disable-next-line @typescript-eslint/no-floating-promises
this.enqueueInternal(op);
}
enterRestrictedMode(purgeExistingTasks) {
if (!this._isShuttingDown) {
this._isShuttingDown = true;
this.skipNonRestrictedTasks = purgeExistingTasks || false;
}
}
enqueue(op) {
this.verifyNotFailed();
if (this._isShuttingDown) {
// Return a Promise which never resolves.
return new Promise(() => { });
}
// Create a deferred Promise that we can return to the callee. This
// allows us to return a "hanging Promise" only to the callee and still
// advance the queue even when the operation is not run.
const task = new Deferred();
return this.enqueueInternal(() => {
if (this._isShuttingDown && this.skipNonRestrictedTasks) {
// We do not resolve 'task'
return Promise.resolve();
}
op().then(task.resolve, task.reject);
return task.promise;
}).then(() => task.promise);
}
enqueueRetryable(op) {
this.enqueueAndForget(() => {
this.retryableOps.push(op);
return this.retryNextOp();
});
}
/**
* Runs the next operation from the retryable queue. If the operation fails,
* reschedules with backoff.
*/
async retryNextOp() {
if (this.retryableOps.length === 0) {
return;
}
try {
await this.retryableOps[0]();
this.retryableOps.shift();
this.backoff.reset();
}
catch (e) {
if (isIndexedDbTransactionError(e)) {
logDebug(LOG_TAG, 'Operation failed with retryable error: ' + e);
}
else {
throw e; // Failure will be handled by AsyncQueue
}
}
if (this.retryableOps.length > 0) {
// If there are additional operations, we re-schedule `retryNextOp()`.
// This is necessary to run retryable operations that failed during
// their initial attempt since we don't know whether they are already
// enqueued. If, for example, `op1`, `op2`, `op3` are enqueued and `op1`
// needs to be re-run, we will run `op1`, `op1`, `op2` using the
// already enqueued calls to `retryNextOp()`. `op3()` will then run in the
// call scheduled here.
// Since `backoffAndRun()` cancels an existing backoff and schedules a
// new backoff on every call, there is only ever a single additional
// operation in the queue.
this.backoff.backoffAndRun(() => this.retryNextOp());
}
}
enqueueInternal(op) {
const newTail = this.tail.then(() => {
this.operationInProgress = true;
return op()
.catch((error) => {
this.failure = error;
this.operationInProgress = false;
const message = getMessageOrStack(error);
logError('INTERNAL UNHANDLED ERROR: ', message);
// Re-throw the error so that this.tail becomes a rejected Promise and
// all further attempts to chain (via .then) will just short-circuit
// and return the rejected Promise.
throw error;
})
.then(result => {
this.operationInProgress = false;
return result;
});
});
this.tail = newTail;
return newTail;
}
enqueueAfterDelay(timerId, delayMs, op) {
this.verifyNotFailed();
// Fast-forward delays for timerIds that have been overriden.
if (this.timerIdsToSkip.indexOf(timerId) > -1) {
delayMs = 0;
}
const delayedOp = DelayedOperation.createAndSchedule(this, timerId, delayMs, op, removedOp => this.removeDelayedOperation(removedOp));
this.delayedOperations.push(delayedOp);
return delayedOp;
}
verifyNotFailed() {
if (this.failure) {
fail();
}
}
verifyOperationInProgress() {
}
/**
* Waits until all currently queued tasks are finished executing. Delayed
* operations are not run.
*/
async drain() {
// Operations in the queue prior to draining may have enqueued additional
// operations. Keep draining the queue until the tail is no longer advanced,
// which indicates that no more new operations were enqueued and that all
// operations were executed.
let currentTail;
do {
currentTail = this.tail;
await currentTail;
} while (currentTail !== this.tail);
}
/**
* For Tests: Determine if a delayed operation with a particular TimerId
* exists.
*/
containsDelayedOperation(timerId) {
for (const op of this.delayedOperations) {
if (op.timerId === timerId) {
return true;
}
}
return false;
}
/**
* For Tests: Runs some or all delayed operations early.
*
* @param lastTimerId - Delayed operations up to and including this TimerId
* will be drained. Pass TimerId.All to run all delayed operations.
* @returns a Promise that resolves once all operations have been run.
*/
runAllDelayedOperationsUntil(lastTimerId) {
// Note that draining may generate more delayed ops, so we do that first.
return this.drain().then(() => {
// Run ops in the same order they'd run if they ran naturally.
this.delayedOperations.sort((a, b) => a.targetTimeMs - b.targetTimeMs);
for (const op of this.delayedOperations) {
op.skipDelay();
if (lastTimerId !== "all" /* TimerId.All */ && op.timerId === lastTimerId) {
break;
}
}
return this.drain();
});
}
/**
* For Tests: Skip all subsequent delays for a timer id.
*/
skipDelaysForTimerId(timerId) {
this.timerIdsToSkip.push(timerId);
}
/** Called once a DelayedOperation is run or canceled. */
removeDelayedOperation(op) {
// NOTE: indexOf / slice are O(n), but delayedOperations is expected to be small.
const index = this.delayedOperations.indexOf(op);
this.delayedOperations.splice(index, 1);
}
}
function newAsyncQueue() {
return new AsyncQueueImpl();
}
/**
* Chrome includes Error.message in Error.stack. Other browsers do not.
* This returns expected output of message + stack when available.
* @param error - Error or FirestoreError
*/
function getMessageOrStack(error) {
let message = error.message || '';
if (error.stack) {
if (error.stack.includes(error.message)) {
message = error.stack;
}
else {
message = error.message + '\n' + error.stack;
}
}
return message;
}
/**
* @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.
*/
// TODO(mrschmidt) Consider using `BaseTransaction` as the base class in the
// legacy SDK.
/**
* A reference to a transaction.
*
* The `Transaction` object passed to a transaction's `updateFunction` provides
* the methods to read and write data within the transaction context. See
* {@link runTransaction}.
*/
class Transaction {
/** @hideconstructor */
constructor(_firestore, _transaction) {
this._firestore = _firestore;
this._transaction = _transaction;
this._dataReader = newUserDataReader(_firestore);
}
/**
* Reads the document referenced by the provided {@link DocumentReference}.
*
* @param documentRef - A reference to the document to be read.
* @returns A `DocumentSnapshot` with the read data.
*/
get(documentRef) {
const ref = validateReference(documentRef, this._firestore);
const userDataWriter = new LiteUserDataWriter(this._firestore);
return this._transaction.lookup([ref._key]).then(docs => {
if (!docs || docs.length !== 1) {
return fail();
}
const doc = docs[0];
if (doc.isFoundDocument()) {
return new DocumentSnapshot(this._firestore, userDataWriter, doc.key, doc, ref.converter);
}
else if (doc.isNoDocument()) {
return new DocumentSnapshot(this._firestore, userDataWriter, ref._key, null, ref.converter);
}
else {
throw fail();
}
});
}
set(documentRef, value, options) {
const ref = validateReference(documentRef, this._firestore);
const convertedValue = applyFirestoreDataConverter(ref.converter, value, options);
const parsed = parseSetData(this._dataReader, 'Transaction.set', ref._key, convertedValue, ref.converter !== null, options);
this._transaction.set(ref._key, parsed);
return this;
}
update(documentRef, fieldOrUpdateData, value, ...moreFieldsAndValues) {
const ref = validateReference(documentRef, this._firestore);
// For Compat types, we have to "extract" the underlying types before
// performing validation.
fieldOrUpdateData = util.getModularInstance(fieldOrUpdateData);
let parsed;
if (typeof fieldOrUpdateData === 'string' ||
fieldOrUpdateData instanceof FieldPath) {
parsed = parseUpdateVarargs(this._dataReader, 'Transaction.update', ref._key, fieldOrUpdateData, value, moreFieldsAndValues);
}
else {
parsed = parseUpdateData(this._dataReader, 'Transaction.update', ref._key, fieldOrUpdateData);
}
this._transaction.update(ref._key, parsed);
return this;
}
/**
* Deletes the document referred to by the provided {@link DocumentReference}.
*
* @param documentRef - A reference to the document to be deleted.
* @returns This `Transaction` instance. Used for chaining method calls.
*/
delete(documentRef) {
const ref = validateReference(documentRef, this._firestore);
this._transaction.delete(ref._key);
return this;
}
}
/**
* Executes the given `updateFunction` and then attempts to commit the changes
* applied within the transaction. If any document read within the transaction
* has changed, Cloud Firestore retries the `updateFunction`. If it fails to
* commit after 5 attempts, the transaction fails.
*
* The maximum number of writes allowed in a single transaction is 500.
*
* @param firestore - A reference to the Firestore database to run this
* transaction against.
* @param updateFunction - The function to execute within the transaction
* context.
* @param options - An options object to configure maximum number of attempts to
* commit.
* @returns If the transaction completed successfully or was explicitly aborted
* (the `updateFunction` returned a failed promise), the promise returned by the
* `updateFunction `is returned here. Otherwise, if the transaction failed, a
* rejected promise with the corresponding failure error is returned.
*/
function runTransaction(firestore, updateFunction, options) {
firestore = cast(firestore, Firestore);
const datastore = getDatastore(firestore);
const optionsWithDefaults = Object.assign(Object.assign({}, DEFAULT_TRANSACTION_OPTIONS), options);
validateTransactionOptions(optionsWithDefaults);
const deferred = new Deferred();
new TransactionRunner(newAsyncQueue(), datastore, optionsWithDefaults, internalTransaction => updateFunction(new Transaction(firestore, internalTransaction)), deferred).run();
return deferred.promise;
}
/**
* Firestore Lite
*
* @remarks Firestore Lite is a small online-only SDK that allows read
* and write access to your Firestore database. All operations connect
* directly to the backend, and `onSnapshot()` APIs are not supported.
* @packageDocumentation
*/
registerFirestore();
exports.AggregateField = AggregateField;
exports.AggregateQuerySnapshot = AggregateQuerySnapshot;
exports.Bytes = Bytes;
exports.CollectionReference = CollectionReference;
exports.DocumentReference = DocumentReference;
exports.DocumentSnapshot = DocumentSnapshot;
exports.FieldPath = FieldPath;
exports.FieldValue = FieldValue;
exports.Firestore = Firestore;
exports.FirestoreError = FirestoreError;
exports.GeoPoint = GeoPoint;
exports.Query = Query;
exports.QueryCompositeFilterConstraint = QueryCompositeFilterConstraint;
exports.QueryConstraint = QueryConstraint;
exports.QueryDocumentSnapshot = QueryDocumentSnapshot;
exports.QueryEndAtConstraint = QueryEndAtConstraint;
exports.QueryFieldFilterConstraint = QueryFieldFilterConstraint;
exports.QueryLimitConstraint = QueryLimitConstraint;
exports.QueryOrderByConstraint = QueryOrderByConstraint;
exports.QuerySnapshot = QuerySnapshot;
exports.QueryStartAtConstraint = QueryStartAtConstraint;
exports.Timestamp = Timestamp;
exports.Transaction = Transaction;
exports.WriteBatch = WriteBatch;
exports.addDoc = addDoc;
exports.aggregateFieldEqual = aggregateFieldEqual;
exports.aggregateQuerySnapshotEqual = aggregateQuerySnapshotEqual;
exports.and = and;
exports.arrayRemove = arrayRemove;
exports.arrayUnion = arrayUnion;
exports.average = average;
exports.collection = collection;
exports.collectionGroup = collectionGroup;
exports.connectFirestoreEmulator = connectFirestoreEmulator;
exports.count = count;
exports.deleteDoc = deleteDoc;
exports.deleteField = deleteField;
exports.doc = doc;
exports.documentId = documentId;
exports.endAt = endAt;
exports.endBefore = endBefore;
exports.getAggregate = getAggregate;
exports.getCount = getCount;
exports.getDoc = getDoc;
exports.getDocs = getDocs;
exports.getFirestore = getFirestore;
exports.increment = increment;
exports.initializeFirestore = initializeFirestore;
exports.limit = limit;
exports.limitToLast = limitToLast;
exports.or = or;
exports.orderBy = orderBy;
exports.query = query;
exports.queryEqual = queryEqual;
exports.refEqual = refEqual;
exports.runTransaction = runTransaction;
exports.serverTimestamp = serverTimestamp;
exports.setDoc = setDoc;
exports.setLogLevel = setLogLevel;
exports.snapshotEqual = snapshotEqual;
exports.startAfter = startAfter;
exports.startAt = startAt;
exports.sum = sum;
exports.terminate = terminate;
exports.updateDoc = updateDoc;
exports.where = where;
exports.writeBatch = writeBatch;
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