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gsi_ess_mobile/node_modules/@firebase/database/dist/internal.d.ts

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/**
* Firebase Realtime Database
*
* @packageDocumentation
*/
import { AppCheckInternalComponentName } from '@firebase/app-check-interop-types';
import { AppCheckTokenListener } from '@firebase/app-check-interop-types';
import { AppCheckTokenResult } from '@firebase/app-check-interop-types';
import { EmulatorMockTokenOptions } from '@firebase/util';
import { FirebaseApp } from '@firebase/app';
import { FirebaseAuthInternalName } from '@firebase/auth-interop-types';
import { FirebaseAuthTokenData } from '@firebase/app-types/private';
import { _FirebaseService } from '@firebase/app';
import { Provider } from '@firebase/component';
/**
* Abstraction around AppCheck's token fetching capabilities.
*/
declare class AppCheckTokenProvider {
private appName_;
private appCheckProvider?;
private appCheck?;
constructor(appName_: string, appCheckProvider?: Provider<AppCheckInternalComponentName>);
getToken(forceRefresh?: boolean): Promise<AppCheckTokenResult>;
addTokenChangeListener(listener: AppCheckTokenListener): void;
notifyForInvalidToken(): void;
}
declare interface AuthTokenProvider {
getToken(forceRefresh: boolean): Promise<FirebaseAuthTokenData>;
addTokenChangeListener(listener: (token: string | null) => void): void;
removeTokenChangeListener(listener: (token: string | null) => void): void;
notifyForInvalidToken(): void;
}
/**
* A cache node only stores complete children. Additionally it holds a flag whether the node can be considered fully
* initialized in the sense that we know at one point in time this represented a valid state of the world, e.g.
* initialized with data from the server, or a complete overwrite by the client. The filtered flag also tracks
* whether a node potentially had children removed due to a filter.
*/
declare class CacheNode {
private node_;
private fullyInitialized_;
private filtered_;
constructor(node_: Node_2, fullyInitialized_: boolean, filtered_: boolean);
/**
* Returns whether this node was fully initialized with either server data or a complete overwrite by the client
*/
isFullyInitialized(): boolean;
/**
* Returns whether this node is potentially missing children due to a filter applied to the node
*/
isFiltered(): boolean;
isCompleteForPath(path: Path): boolean;
isCompleteForChild(key: string): boolean;
getNode(): Node_2;
}
declare class CancelEvent implements Event_2 {
eventRegistration: EventRegistration;
error: Error;
path: Path;
constructor(eventRegistration: EventRegistration, error: Error, path: Path);
getPath(): Path;
getEventType(): string;
getEventRunner(): () => void;
toString(): string;
}
declare interface Change {
/** @param type - The event type */
type: ChangeType;
/** @param snapshotNode - The data */
snapshotNode: Node_2;
/** @param childName - The name for this child, if it's a child even */
childName?: string;
/** @param oldSnap - Used for intermediate processing of child changed events */
oldSnap?: Node_2;
/** * @param prevName - The name for the previous child, if applicable */
prevName?: string | null;
}
declare const enum ChangeType {
/** Event type for a child added */
CHILD_ADDED = "child_added",
/** Event type for a child removed */
CHILD_REMOVED = "child_removed",
/** Event type for a child changed */
CHILD_CHANGED = "child_changed",
/** Event type for a child moved */
CHILD_MOVED = "child_moved",
/** Event type for a value change */
VALUE = "value"
}
/**
* Gets a `Reference` for the location at the specified relative path.
*
* The relative path can either be a simple child name (for example, "ada") or
* a deeper slash-separated path (for example, "ada/name/first").
*
* @param parent - The parent location.
* @param path - A relative path from this location to the desired child
* location.
* @returns The specified child location.
*/
export declare function child(parent: DatabaseReference, path: string): DatabaseReference;
declare class ChildChangeAccumulator {
private readonly changeMap;
trackChildChange(change: Change): void;
getChanges(): Change[];
}
/**
* @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.
*/
/**
* @fileoverview Implementation of an immutable SortedMap using a Left-leaning
* Red-Black Tree, adapted from the implementation in Mugs
* (http://mads379.github.com/mugs/) by Mads Hartmann Jensen
* (mads379\@gmail.com).
*
* Original paper on Left-leaning Red-Black Trees:
* http://www.cs.princeton.edu/~rs/talks/LLRB/LLRB.pdf
*
* Invariant 1: No red node has a red child
* Invariant 2: Every leaf path has the same number of black nodes
* Invariant 3: Only the left child can be red (left leaning)
*/
declare type Comparator<K> = (key1: K, key2: K) => number;
/**
* Since updates to filtered nodes might require nodes to be pulled in from "outside" the node, this interface
* can help to get complete children that can be pulled in.
* A class implementing this interface takes potentially multiple sources (e.g. user writes, server data from
* other views etc.) to try it's best to get a complete child that might be useful in pulling into the view.
*
* @interface
*/
declare interface CompleteChildSource {
getCompleteChild(childKey: string): Node_2 | null;
getChildAfterChild(index: Index, child: NamedNode, reverse: boolean): NamedNode | null;
}
/**
* This class holds a collection of writes that can be applied to nodes in unison. It abstracts away the logic with
* dealing with priority writes and multiple nested writes. At any given path there is only allowed to be one write
* modifying that path. Any write to an existing path or shadowing an existing path will modify that existing write
* to reflect the write added.
*/
declare class CompoundWrite {
writeTree_: ImmutableTree<Node_2>;
constructor(writeTree_: ImmutableTree<Node_2>);
static empty(): CompoundWrite;
}
/**
* Modify the provided instance to communicate with the Realtime Database
* emulator.
*
* <p>Note: This method must be called before performing any other operation.
*
* @param db - The instance to modify.
* @param host - The emulator host (ex: localhost)
* @param port - The emulator port (ex: 8080)
* @param options.mockUserToken - the mock auth token to use for unit testing Security Rules
*/
export declare function connectDatabaseEmulator(db: Database, host: string, port: number, options?: {
mockUserToken?: EmulatorMockTokenOptions | string;
}): void;
/**
* Class representing a Firebase Realtime Database.
*/
export declare class Database implements _FirebaseService {
_repoInternal: Repo;
/** The {@link @firebase/app#FirebaseApp} associated with this Realtime Database instance. */
readonly app: FirebaseApp;
/** Represents a `Database` instance. */
readonly 'type' = "database";
/** Track if the instance has been used (root or repo accessed) */
_instanceStarted: boolean;
/** Backing state for root_ */
private _rootInternal?;
/** @hideconstructor */
constructor(_repoInternal: Repo,
/** The {@link @firebase/app#FirebaseApp} associated with this Realtime Database instance. */
app: FirebaseApp);
get _repo(): Repo;
get _root(): _ReferenceImpl;
_delete(): Promise<void>;
_checkNotDeleted(apiName: string): void;
}
/**
* A `DatabaseReference` represents a specific location in your Database and can be used
* for reading or writing data to that Database location.
*
* You can reference the root or child location in your Database by calling
* `ref()` or `ref("child/path")`.
*
* Writing is done with the `set()` method and reading can be done with the
* `on*()` method. See {@link
* https://firebase.google.com/docs/database/web/read-and-write}
*/
export declare interface DatabaseReference extends Query {
/**
* The last part of the `DatabaseReference`'s path.
*
* For example, `"ada"` is the key for
* `https://<DATABASE_NAME>.firebaseio.com/users/ada`.
*
* The key of a root `DatabaseReference` is `null`.
*/
readonly key: string | null;
/**
* The parent location of a `DatabaseReference`.
*
* The parent of a root `DatabaseReference` is `null`.
*/
readonly parent: DatabaseReference | null;
/** The root `DatabaseReference` of the Database. */
readonly root: DatabaseReference;
}
/**
* A `DataSnapshot` contains data from a Database location.
*
* Any time you read data from the Database, you receive the data as a
* `DataSnapshot`. A `DataSnapshot` is passed to the event callbacks you attach
* with `on()` or `once()`. You can extract the contents of the snapshot as a
* JavaScript object by calling the `val()` method. Alternatively, you can
* traverse into the snapshot by calling `child()` to return child snapshots
* (which you could then call `val()` on).
*
* A `DataSnapshot` is an efficiently generated, immutable copy of the data at
* a Database location. It cannot be modified and will never change (to modify
* data, you always call the `set()` method on a `Reference` directly).
*/
export declare class DataSnapshot {
readonly _node: Node_2;
/**
* The location of this DataSnapshot.
*/
readonly ref: DatabaseReference;
readonly _index: Index;
/**
* @param _node - A SnapshotNode to wrap.
* @param ref - The location this snapshot came from.
* @param _index - The iteration order for this snapshot
* @hideconstructor
*/
constructor(_node: Node_2,
/**
* The location of this DataSnapshot.
*/
ref: DatabaseReference, _index: Index);
/**
* Gets the priority value of the data in this `DataSnapshot`.
*
* Applications need not use priority but can order collections by
* ordinary properties (see
* {@link https://firebase.google.com/docs/database/web/lists-of-data#sorting_and_filtering_data |Sorting and filtering data}
* ).
*/
get priority(): string | number | null;
/**
* The key (last part of the path) of the location of this `DataSnapshot`.
*
* The last token in a Database location is considered its key. For example,
* "ada" is the key for the /users/ada/ node. Accessing the key on any
* `DataSnapshot` will return the key for the location that generated it.
* However, accessing the key on the root URL of a Database will return
* `null`.
*/
get key(): string | null;
/** Returns the number of child properties of this `DataSnapshot`. */
get size(): number;
/**
* Gets another `DataSnapshot` for the location at the specified relative path.
*
* Passing a relative path to the `child()` method of a DataSnapshot returns
* another `DataSnapshot` for the location at the specified relative path. The
* relative path can either be a simple child name (for example, "ada") or a
* deeper, slash-separated path (for example, "ada/name/first"). If the child
* location has no data, an empty `DataSnapshot` (that is, a `DataSnapshot`
* whose value is `null`) is returned.
*
* @param path - A relative path to the location of child data.
*/
child(path: string): DataSnapshot;
/**
* Returns true if this `DataSnapshot` contains any data. It is slightly more
* efficient than using `snapshot.val() !== null`.
*/
exists(): boolean;
/**
* Exports the entire contents of the DataSnapshot as a JavaScript object.
*
* The `exportVal()` method is similar to `val()`, except priority information
* is included (if available), making it suitable for backing up your data.
*
* @returns The DataSnapshot's contents as a JavaScript value (Object,
* Array, string, number, boolean, or `null`).
*/
exportVal(): any;
/**
* Enumerates the top-level children in the `DataSnapshot`.
*
* Because of the way JavaScript objects work, the ordering of data in the
* JavaScript object returned by `val()` is not guaranteed to match the
* ordering on the server nor the ordering of `onChildAdded()` events. That is
* where `forEach()` comes in handy. It guarantees the children of a
* `DataSnapshot` will be iterated in their query order.
*
* If no explicit `orderBy*()` method is used, results are returned
* ordered by key (unless priorities are used, in which case, results are
* returned by priority).
*
* @param action - A function that will be called for each child DataSnapshot.
* The callback can return true to cancel further enumeration.
* @returns true if enumeration was canceled due to your callback returning
* true.
*/
forEach(action: (child: DataSnapshot) => boolean | void): boolean;
/**
* Returns true if the specified child path has (non-null) data.
*
* @param path - A relative path to the location of a potential child.
* @returns `true` if data exists at the specified child path; else
* `false`.
*/
hasChild(path: string): boolean;
/**
* Returns whether or not the `DataSnapshot` has any non-`null` child
* properties.
*
* You can use `hasChildren()` to determine if a `DataSnapshot` has any
* children. If it does, you can enumerate them using `forEach()`. If it
* doesn't, then either this snapshot contains a primitive value (which can be
* retrieved with `val()`) or it is empty (in which case, `val()` will return
* `null`).
*
* @returns true if this snapshot has any children; else false.
*/
hasChildren(): boolean;
/**
* Returns a JSON-serializable representation of this object.
*/
toJSON(): object | null;
/**
* Extracts a JavaScript value from a `DataSnapshot`.
*
* Depending on the data in a `DataSnapshot`, the `val()` method may return a
* scalar type (string, number, or boolean), an array, or an object. It may
* also return null, indicating that the `DataSnapshot` is empty (contains no
* data).
*
* @returns The DataSnapshot's contents as a JavaScript value (Object,
* Array, string, number, boolean, or `null`).
*/
val(): any;
}
export { EmulatorMockTokenOptions }
/**
* Logs debugging information to the console.
*
* @param enabled - Enables logging if `true`, disables logging if `false`.
* @param persistent - Remembers the logging state between page refreshes if
* `true`.
*/
export declare function enableLogging(enabled: boolean, persistent?: boolean): any;
/**
* Logs debugging information to the console.
*
* @param logger - A custom logger function to control how things get logged.
*/
export declare function enableLogging(logger: (message: string) => unknown): any;
/**
* Creates a `QueryConstraint` with the specified ending point.
*
* Using `startAt()`, `startAfter()`, `endBefore()`, `endAt()` and `equalTo()`
* allows you to choose arbitrary starting and ending points for your queries.
*
* The ending point is inclusive, so children with exactly the specified value
* will be included in the query. The optional key argument can be used to
* further limit the range of the query. If it is specified, then children that
* have exactly the specified value must also have a key name less than or equal
* to the specified key.
*
* You can read more about `endAt()` in
* {@link https://firebase.google.com/docs/database/web/lists-of-data#filtering_data | Filtering data}.
*
* @param value - The value to end at. The argument type depends on which
* `orderBy*()` function was used in this query. Specify a value that matches
* the `orderBy*()` type. When used in combination with `orderByKey()`, the
* value must be a string.
* @param key - The child key to end at, among the children with the previously
* specified priority. This argument is only allowed if ordering by child,
* value, or priority.
*/
export declare function endAt(value: number | string | boolean | null, key?: string): QueryConstraint;
/**
* Creates a `QueryConstraint` with the specified ending point (exclusive).
*
* Using `startAt()`, `startAfter()`, `endBefore()`, `endAt()` and `equalTo()`
* allows you to choose arbitrary starting and ending points for your queries.
*
* The ending point is exclusive. If only a value is provided, children
* with a value less than the specified value will be included in the query.
* If a key is specified, then children must have a value less than or equal
* to the specified value and a key name less than the specified key.
*
* @param value - The value to end before. The argument type depends on which
* `orderBy*()` function was used in this query. Specify a value that matches
* the `orderBy*()` type. When used in combination with `orderByKey()`, the
* value must be a string.
* @param key - The child key to end before, among the children with the
* previously specified priority. This argument is only allowed if ordering by
* child, value, or priority.
*/
export declare function endBefore(value: number | string | boolean | null, key?: string): QueryConstraint;
/**
* Creates a `QueryConstraint` that includes children that match the specified
* value.
*
* Using `startAt()`, `startAfter()`, `endBefore()`, `endAt()` and `equalTo()`
* allows you to choose arbitrary starting and ending points for your queries.
*
* The optional key argument can be used to further limit the range of the
* query. If it is specified, then children that have exactly the specified
* value must also have exactly the specified key as their key name. This can be
* used to filter result sets with many matches for the same value.
*
* You can read more about `equalTo()` in
* {@link https://firebase.google.com/docs/database/web/lists-of-data#filtering_data | Filtering data}.
*
* @param value - The value to match for. The argument type depends on which
* `orderBy*()` function was used in this query. Specify a value that matches
* the `orderBy*()` type. When used in combination with `orderByKey()`, the
* value must be a string.
* @param key - The child key to start at, among the children with the
* previously specified priority. This argument is only allowed if ordering by
* child, value, or priority.
*/
export declare function equalTo(value: number | string | boolean | null, key?: string): QueryConstraint;
/**
* Encapsulates the data needed to raise an event
* @interface
*/
declare interface Event_2 {
getPath(): Path;
getEventType(): string;
getEventRunner(): () => void;
toString(): string;
}
/**
* An EventGenerator is used to convert "raw" changes (Change) as computed by the
* CacheDiffer into actual events (Event) that can be raised. See generateEventsForChanges()
* for details.
*
*/
declare class EventGenerator {
query_: QueryContext;
index_: Index;
constructor(query_: QueryContext);
}
declare interface EventList {
events: Event_2[];
path: Path;
}
/**
* The event queue serves a few purposes:
* 1. It ensures we maintain event order in the face of event callbacks doing operations that result in more
* events being queued.
* 2. raiseQueuedEvents() handles being called reentrantly nicely. That is, if in the course of raising events,
* raiseQueuedEvents() is called again, the "inner" call will pick up raising events where the "outer" call
* left off, ensuring that the events are still raised synchronously and in order.
* 3. You can use raiseEventsAtPath and raiseEventsForChangedPath to ensure only relevant previously-queued
* events are raised synchronously.
*
* NOTE: This can all go away if/when we move to async events.
*
*/
declare class EventQueue {
eventLists_: EventList[];
/**
* Tracks recursion depth of raiseQueuedEvents_, for debugging purposes.
*/
recursionDepth_: number;
}
/**
* An EventRegistration is basically an event type ('value', 'child_added', etc.) and a callback
* to be notified of that type of event.
*
* That said, it can also contain a cancel callback to be notified if the event is canceled. And
* currently, this code is organized around the idea that you would register multiple child_ callbacks
* together, as a single EventRegistration. Though currently we don't do that.
*/
declare interface EventRegistration {
/**
* True if this container has a callback to trigger for this event type
*/
respondsTo(eventType: string): boolean;
createEvent(change: Change, query: QueryContext): Event_2;
/**
* Given event data, return a function to trigger the user's callback
*/
getEventRunner(eventData: Event_2): () => void;
createCancelEvent(error: Error, path: Path): CancelEvent | null;
matches(other: EventRegistration): boolean;
/**
* False basically means this is a "dummy" callback container being used as a sentinel
* to remove all callback containers of a particular type. (e.g. if the user does
* ref.off('value') without specifying a specific callback).
*
* (TODO: Rework this, since it's hacky)
*
*/
hasAnyCallback(): boolean;
}
/**
* One of the following strings: "value", "child_added", "child_changed",
* "child_removed", or "child_moved."
*/
export declare type EventType = 'value' | 'child_added' | 'child_changed' | 'child_moved' | 'child_removed';
/**
* Force the use of longPolling instead of websockets. This will be ignored if websocket protocol is used in databaseURL.
*/
export declare function forceLongPolling(): void;
/**
* Force the use of websockets instead of longPolling.
*/
export declare function forceWebSockets(): void;
/**
* Gets the most up-to-date result for this query.
*
* @param query - The query to run.
* @returns A `Promise` which resolves to the resulting DataSnapshot if a value is
* available, or rejects if the client is unable to return a value (e.g., if the
* server is unreachable and there is nothing cached).
*/
export declare function get(query: Query): Promise<DataSnapshot>;
/**
* Returns the instance of the Realtime Database SDK that is associated
* with the provided {@link @firebase/app#FirebaseApp}. Initializes a new instance with
* with default settings if no instance exists or if the existing instance uses
* a custom database URL.
*
* @param app - The {@link @firebase/app#FirebaseApp} instance that the returned Realtime
* Database instance is associated with.
* @param url - The URL of the Realtime Database instance to connect to. If not
* provided, the SDK connects to the default instance of the Firebase App.
* @returns The `Database` instance of the provided app.
*/
export declare function getDatabase(app?: FirebaseApp, url?: string): Database;
/**
* Disconnects from the server (all Database operations will be completed
* offline).
*
* The client automatically maintains a persistent connection to the Database
* server, which will remain active indefinitely and reconnect when
* disconnected. However, the `goOffline()` and `goOnline()` methods may be used
* to control the client connection in cases where a persistent connection is
* undesirable.
*
* While offline, the client will no longer receive data updates from the
* Database. However, all Database operations performed locally will continue to
* immediately fire events, allowing your application to continue behaving
* normally. Additionally, each operation performed locally will automatically
* be queued and retried upon reconnection to the Database server.
*
* To reconnect to the Database and begin receiving remote events, see
* `goOnline()`.
*
* @param db - The instance to disconnect.
*/
export declare function goOffline(db: Database): void;
/**
* Reconnects to the server and synchronizes the offline Database state
* with the server state.
*
* This method should be used after disabling the active connection with
* `goOffline()`. Once reconnected, the client will transmit the proper data
* and fire the appropriate events so that your client "catches up"
* automatically.
*
* @param db - The instance to reconnect.
*/
export declare function goOnline(db: Database): void;
/**
* A tree with immutable elements.
*/
declare class ImmutableTree<T> {
readonly value: T | null;
readonly children: SortedMap<string, ImmutableTree<T>>;
static fromObject<T>(obj: {
[k: string]: T;
}): ImmutableTree<T>;
constructor(value: T | null, children?: SortedMap<string, ImmutableTree<T>>);
/**
* True if the value is empty and there are no children
*/
isEmpty(): boolean;
/**
* Given a path and predicate, return the first node and the path to that node
* where the predicate returns true.
*
* TODO Do a perf test -- If we're creating a bunch of `{path: value:}`
* objects on the way back out, it may be better to pass down a pathSoFar obj.
*
* @param relativePath - The remainder of the path
* @param predicate - The predicate to satisfy to return a node
*/
findRootMostMatchingPathAndValue(relativePath: Path, predicate: (a: T) => boolean): {
path: Path;
value: T;
} | null;
/**
* Find, if it exists, the shortest subpath of the given path that points a defined
* value in the tree
*/
findRootMostValueAndPath(relativePath: Path): {
path: Path;
value: T;
} | null;
/**
* @returns The subtree at the given path
*/
subtree(relativePath: Path): ImmutableTree<T>;
/**
* Sets a value at the specified path.
*
* @param relativePath - Path to set value at.
* @param toSet - Value to set.
* @returns Resulting tree.
*/
set(relativePath: Path, toSet: T | null): ImmutableTree<T>;
/**
* Removes the value at the specified path.
*
* @param relativePath - Path to value to remove.
* @returns Resulting tree.
*/
remove(relativePath: Path): ImmutableTree<T>;
/**
* Gets a value from the tree.
*
* @param relativePath - Path to get value for.
* @returns Value at path, or null.
*/
get(relativePath: Path): T | null;
/**
* Replace the subtree at the specified path with the given new tree.
*
* @param relativePath - Path to replace subtree for.
* @param newTree - New tree.
* @returns Resulting tree.
*/
setTree(relativePath: Path, newTree: ImmutableTree<T>): ImmutableTree<T>;
/**
* Performs a depth first fold on this tree. Transforms a tree into a single
* value, given a function that operates on the path to a node, an optional
* current value, and a map of child names to folded subtrees
*/
fold<V>(fn: (path: Path, value: T, children: {
[k: string]: V;
}) => V): V;
/**
* Recursive helper for public-facing fold() method
*/
private fold_;
/**
* Find the first matching value on the given path. Return the result of applying f to it.
*/
findOnPath<V>(path: Path, f: (path: Path, value: T) => V | null): V | null;
private findOnPath_;
foreachOnPath(path: Path, f: (path: Path, value: T) => void): ImmutableTree<T>;
private foreachOnPath_;
/**
* Calls the given function for each node in the tree that has a value.
*
* @param f - A function to be called with the path from the root of the tree to
* a node, and the value at that node. Called in depth-first order.
*/
foreach(f: (path: Path, value: T) => void): void;
private foreach_;
foreachChild(f: (name: string, value: T) => void): void;
}
/**
* Returns a placeholder value that can be used to atomically increment the
* current database value by the provided delta.
*
* @param delta - the amount to modify the current value atomically.
* @returns A placeholder value for modifying data atomically server-side.
*/
export declare function increment(delta: number): object;
declare abstract class Index {
abstract compare(a: NamedNode, b: NamedNode): number;
abstract isDefinedOn(node: Node_2): boolean;
/**
* @returns A standalone comparison function for
* this index
*/
getCompare(): Comparator<NamedNode>;
/**
* Given a before and after value for a node, determine if the indexed value has changed. Even if they are different,
* it's possible that the changes are isolated to parts of the snapshot that are not indexed.
*
*
* @returns True if the portion of the snapshot being indexed changed between oldNode and newNode
*/
indexedValueChanged(oldNode: Node_2, newNode: Node_2): boolean;
/**
* @returns a node wrapper that will sort equal to or less than
* any other node wrapper, using this index
*/
minPost(): NamedNode;
/**
* @returns a node wrapper that will sort greater than or equal to
* any other node wrapper, using this index
*/
abstract maxPost(): NamedNode;
abstract makePost(indexValue: unknown, name: string): NamedNode;
/**
* @returns String representation for inclusion in a query spec
*/
abstract toString(): string;
}
/**
* Creates a new `QueryConstraint` that if limited to the first specific number
* of children.
*
* The `limitToFirst()` method is used to set a maximum number of children to be
* synced for a given callback. If we set a limit of 100, we will initially only
* receive up to 100 `child_added` events. If we have fewer than 100 messages
* stored in our Database, a `child_added` event will fire for each message.
* However, if we have over 100 messages, we will only receive a `child_added`
* event for the first 100 ordered messages. As items change, we will receive
* `child_removed` events for each item that drops out of the active list so
* that the total number stays at 100.
*
* You can read more about `limitToFirst()` in
* {@link https://firebase.google.com/docs/database/web/lists-of-data#filtering_data | Filtering data}.
*
* @param limit - The maximum number of nodes to include in this query.
*/
export declare function limitToFirst(limit: number): QueryConstraint;
/**
* Creates a new `QueryConstraint` that is limited to return only the last
* specified number of children.
*
* The `limitToLast()` method is used to set a maximum number of children to be
* synced for a given callback. If we set a limit of 100, we will initially only
* receive up to 100 `child_added` events. If we have fewer than 100 messages
* stored in our Database, a `child_added` event will fire for each message.
* However, if we have over 100 messages, we will only receive a `child_added`
* event for the last 100 ordered messages. As items change, we will receive
* `child_removed` events for each item that drops out of the active list so
* that the total number stays at 100.
*
* You can read more about `limitToLast()` in
* {@link https://firebase.google.com/docs/database/web/lists-of-data#filtering_data | Filtering data}.
*
* @param limit - The maximum number of nodes to include in this query.
*/
export declare function limitToLast(limit: number): QueryConstraint;
/** An options objects that can be used to customize a listener. */
export declare interface ListenOptions {
/** Whether to remove the listener after its first invocation. */
readonly onlyOnce?: boolean;
}
declare interface ListenProvider {
startListening(query: QueryContext, tag: number | null, hashFn: () => string, onComplete: (a: string, b?: unknown) => Event_2[]): Event_2[];
stopListening(a: QueryContext, b: number | null): void;
}
/**
* Represents an empty node (a leaf node in the Red-Black Tree).
*/
declare class LLRBEmptyNode<K, V> {
key: K;
value: V;
left: LLRBNode<K, V> | LLRBEmptyNode<K, V>;
right: LLRBNode<K, V> | LLRBEmptyNode<K, V>;
color: boolean;
/**
* Returns a copy of the current node.
*
* @returns The node copy.
*/
copy(key: K | null, value: V | null, color: boolean | null, left: LLRBNode<K, V> | LLRBEmptyNode<K, V> | null, right: LLRBNode<K, V> | LLRBEmptyNode<K, V> | null): LLRBEmptyNode<K, V>;
/**
* Returns a copy of the tree, with the specified key/value added.
*
* @param key - Key to be added.
* @param value - Value to be added.
* @param comparator - Comparator.
* @returns New tree, with item added.
*/
insert(key: K, value: V, comparator: Comparator<K>): LLRBNode<K, V>;
/**
* Returns a copy of the tree, with the specified key removed.
*
* @param key - The key to remove.
* @param comparator - Comparator.
* @returns New tree, with item removed.
*/
remove(key: K, comparator: Comparator<K>): LLRBEmptyNode<K, V>;
/**
* @returns The total number of nodes in the tree.
*/
count(): number;
/**
* @returns True if the tree is empty.
*/
isEmpty(): boolean;
/**
* Traverses the tree in key order and calls the specified action function
* for each node.
*
* @param action - Callback function to be called for each
* node. If it returns true, traversal is aborted.
* @returns True if traversal was aborted.
*/
inorderTraversal(action: (k: K, v: V) => unknown): boolean;
/**
* Traverses the tree in reverse key order and calls the specified action function
* for each node.
*
* @param action - Callback function to be called for each
* node. If it returns true, traversal is aborted.
* @returns True if traversal was aborted.
*/
reverseTraversal(action: (k: K, v: V) => void): boolean;
minKey(): null;
maxKey(): null;
check_(): number;
/**
* @returns Whether this node is red.
*/
isRed_(): boolean;
}
/**
* Represents a node in a Left-leaning Red-Black tree.
*/
declare class LLRBNode<K, V> {
key: K;
value: V;
color: boolean;
left: LLRBNode<K, V> | LLRBEmptyNode<K, V>;
right: LLRBNode<K, V> | LLRBEmptyNode<K, V>;
/**
* @param key - Key associated with this node.
* @param value - Value associated with this node.
* @param color - Whether this node is red.
* @param left - Left child.
* @param right - Right child.
*/
constructor(key: K, value: V, color: boolean | null, left?: LLRBNode<K, V> | LLRBEmptyNode<K, V> | null, right?: LLRBNode<K, V> | LLRBEmptyNode<K, V> | null);
static RED: boolean;
static BLACK: boolean;
/**
* Returns a copy of the current node, optionally replacing pieces of it.
*
* @param key - New key for the node, or null.
* @param value - New value for the node, or null.
* @param color - New color for the node, or null.
* @param left - New left child for the node, or null.
* @param right - New right child for the node, or null.
* @returns The node copy.
*/
copy(key: K | null, value: V | null, color: boolean | null, left: LLRBNode<K, V> | LLRBEmptyNode<K, V> | null, right: LLRBNode<K, V> | LLRBEmptyNode<K, V> | null): LLRBNode<K, V>;
/**
* @returns The total number of nodes in the tree.
*/
count(): number;
/**
* @returns True if the tree is empty.
*/
isEmpty(): boolean;
/**
* Traverses the tree in key order and calls the specified action function
* for each node.
*
* @param action - Callback function to be called for each
* node. If it returns true, traversal is aborted.
* @returns The first truthy value returned by action, or the last falsey
* value returned by action
*/
inorderTraversal(action: (k: K, v: V) => unknown): boolean;
/**
* Traverses the tree in reverse key order and calls the specified action function
* for each node.
*
* @param action - Callback function to be called for each
* node. If it returns true, traversal is aborted.
* @returns True if traversal was aborted.
*/
reverseTraversal(action: (k: K, v: V) => void): boolean;
/**
* @returns The minimum node in the tree.
*/
private min_;
/**
* @returns The maximum key in the tree.
*/
minKey(): K;
/**
* @returns The maximum key in the tree.
*/
maxKey(): K;
/**
* @param key - Key to insert.
* @param value - Value to insert.
* @param comparator - Comparator.
* @returns New tree, with the key/value added.
*/
insert(key: K, value: V, comparator: Comparator<K>): LLRBNode<K, V>;
/**
* @returns New tree, with the minimum key removed.
*/
private removeMin_;
/**
* @param key - The key of the item to remove.
* @param comparator - Comparator.
* @returns New tree, with the specified item removed.
*/
remove(key: K, comparator: Comparator<K>): LLRBNode<K, V> | LLRBEmptyNode<K, V>;
/**
* @returns Whether this is a RED node.
*/
isRed_(): boolean;
/**
* @returns New tree after performing any needed rotations.
*/
private fixUp_;
/**
* @returns New tree, after moveRedLeft.
*/
private moveRedLeft_;
/**
* @returns New tree, after moveRedRight.
*/
private moveRedRight_;
/**
* @returns New tree, after rotateLeft.
*/
private rotateLeft_;
/**
* @returns New tree, after rotateRight.
*/
private rotateRight_;
/**
* @returns Newt ree, after colorFlip.
*/
private colorFlip_;
/**
* For testing.
*
* @returns True if all is well.
*/
private checkMaxDepth_;
check_(): number;
}
declare class NamedNode {
name: string;
node: Node_2;
constructor(name: string, node: Node_2);
static Wrap(name: string, node: Node_2): NamedNode;
}
/**
* Node is an interface defining the common functionality for nodes in
* a DataSnapshot.
*
* @interface
*/
declare interface Node_2 {
/**
* Whether this node is a leaf node.
* @returns Whether this is a leaf node.
*/
isLeafNode(): boolean;
/**
* Gets the priority of the node.
* @returns The priority of the node.
*/
getPriority(): Node_2;
/**
* Returns a duplicate node with the new priority.
* @param newPriorityNode - New priority to set for the node.
* @returns Node with new priority.
*/
updatePriority(newPriorityNode: Node_2): Node_2;
/**
* Returns the specified immediate child, or null if it doesn't exist.
* @param childName - The name of the child to retrieve.
* @returns The retrieved child, or an empty node.
*/
getImmediateChild(childName: string): Node_2;
/**
* Returns a child by path, or null if it doesn't exist.
* @param path - The path of the child to retrieve.
* @returns The retrieved child or an empty node.
*/
getChild(path: Path): Node_2;
/**
* Returns the name of the child immediately prior to the specified childNode, or null.
* @param childName - The name of the child to find the predecessor of.
* @param childNode - The node to find the predecessor of.
* @param index - The index to use to determine the predecessor
* @returns The name of the predecessor child, or null if childNode is the first child.
*/
getPredecessorChildName(childName: string, childNode: Node_2, index: Index): string | null;
/**
* Returns a duplicate node, with the specified immediate child updated.
* Any value in the node will be removed.
* @param childName - The name of the child to update.
* @param newChildNode - The new child node
* @returns The updated node.
*/
updateImmediateChild(childName: string, newChildNode: Node_2): Node_2;
/**
* Returns a duplicate node, with the specified child updated. Any value will
* be removed.
* @param path - The path of the child to update.
* @param newChildNode - The new child node, which may be an empty node
* @returns The updated node.
*/
updateChild(path: Path, newChildNode: Node_2): Node_2;
/**
* True if the immediate child specified exists
*/
hasChild(childName: string): boolean;
/**
* @returns True if this node has no value or children.
*/
isEmpty(): boolean;
/**
* @returns The number of children of this node.
*/
numChildren(): number;
/**
* Calls action for each child.
* @param action - Action to be called for
* each child. It's passed the child name and the child node.
* @returns The first truthy value return by action, or the last falsey one
*/
forEachChild(index: Index, action: (a: string, b: Node_2) => void): unknown;
/**
* @param exportFormat - True for export format (also wire protocol format).
* @returns Value of this node as JSON.
*/
val(exportFormat?: boolean): unknown;
/**
* @returns hash representing the node contents.
*/
hash(): string;
/**
* @param other - Another node
* @returns -1 for less than, 0 for equal, 1 for greater than other
*/
compareTo(other: Node_2): number;
/**
* @returns Whether or not this snapshot equals other
*/
equals(other: Node_2): boolean;
/**
* @returns This node, with the specified index now available
*/
withIndex(indexDefinition: Index): Node_2;
isIndexed(indexDefinition: Index): boolean;
}
/**
* NodeFilter is used to update nodes and complete children of nodes while applying queries on the fly and keeping
* track of any child changes. This class does not track value changes as value changes depend on more
* than just the node itself. Different kind of queries require different kind of implementations of this interface.
* @interface
*/
declare interface NodeFilter_2 {
/**
* Update a single complete child in the snap. If the child equals the old child in the snap, this is a no-op.
* The method expects an indexed snap.
*/
updateChild(snap: Node_2, key: string, newChild: Node_2, affectedPath: Path, source: CompleteChildSource, optChangeAccumulator: ChildChangeAccumulator | null): Node_2;
/**
* Update a node in full and output any resulting change from this complete update.
*/
updateFullNode(oldSnap: Node_2, newSnap: Node_2, optChangeAccumulator: ChildChangeAccumulator | null): Node_2;
/**
* Update the priority of the root node
*/
updatePriority(oldSnap: Node_2, newPriority: Node_2): Node_2;
/**
* Returns true if children might be filtered due to query criteria
*/
filtersNodes(): boolean;
/**
* Returns the index filter that this filter uses to get a NodeFilter that doesn't filter any children.
*/
getIndexedFilter(): NodeFilter_2;
/**
* Returns the index that this filter uses
*/
getIndex(): Index;
}
/**
* Detaches a callback previously attached with the corresponding `on*()` (`onValue`, `onChildAdded`) listener.
* Note: This is not the recommended way to remove a listener. Instead, please use the returned callback function from
* the respective `on*` callbacks.
*
* Detach a callback previously attached with `on*()`. Calling `off()` on a parent listener
* will not automatically remove listeners registered on child nodes, `off()`
* must also be called on any child listeners to remove the callback.
*
* If a callback is not specified, all callbacks for the specified eventType
* will be removed. Similarly, if no eventType is specified, all callbacks
* for the `Reference` will be removed.
*
* Individual listeners can also be removed by invoking their unsubscribe
* callbacks.
*
* @param query - The query that the listener was registered with.
* @param eventType - One of the following strings: "value", "child_added",
* "child_changed", "child_removed", or "child_moved." If omitted, all callbacks
* for the `Reference` will be removed.
* @param callback - The callback function that was passed to `on()` or
* `undefined` to remove all callbacks.
*/
export declare function off(query: Query, eventType?: EventType, callback?: (snapshot: DataSnapshot, previousChildName?: string | null) => unknown): void;
/**
* Listens for data changes at a particular location.
*
* This is the primary way to read data from a Database. Your callback
* will be triggered for the initial data and again whenever the data changes.
* Invoke the returned unsubscribe callback to stop receiving updates. See
* {@link https://firebase.google.com/docs/database/web/retrieve-data | Retrieve Data on the Web}
* for more details.
*
* An `onChildAdded` event will be triggered once for each initial child at this
* location, and it will be triggered again every time a new child is added. The
* `DataSnapshot` passed into the callback will reflect the data for the
* relevant child. For ordering purposes, it is passed a second argument which
* is a string containing the key of the previous sibling child by sort order,
* or `null` if it is the first child.
*
* @param query - The query to run.
* @param callback - A callback that fires when the specified event occurs.
* The callback will be passed a DataSnapshot and a string containing the key of
* the previous child, by sort order, or `null` if it is the first child.
* @param cancelCallback - An optional callback that will be notified if your
* event subscription is ever canceled because your client does not have
* permission to read this data (or it had permission but has now lost it).
* This callback will be passed an `Error` object indicating why the failure
* occurred.
* @returns A function that can be invoked to remove the listener.
*/
export declare function onChildAdded(query: Query, callback: (snapshot: DataSnapshot, previousChildName?: string | null) => unknown, cancelCallback?: (error: Error) => unknown): Unsubscribe;
/**
* Listens for data changes at a particular location.
*
* This is the primary way to read data from a Database. Your callback
* will be triggered for the initial data and again whenever the data changes.
* Invoke the returned unsubscribe callback to stop receiving updates. See
* {@link https://firebase.google.com/docs/database/web/retrieve-data | Retrieve Data on the Web}
* for more details.
*
* An `onChildAdded` event will be triggered once for each initial child at this
* location, and it will be triggered again every time a new child is added. The
* `DataSnapshot` passed into the callback will reflect the data for the
* relevant child. For ordering purposes, it is passed a second argument which
* is a string containing the key of the previous sibling child by sort order,
* or `null` if it is the first child.
*
* @param query - The query to run.
* @param callback - A callback that fires when the specified event occurs.
* The callback will be passed a DataSnapshot and a string containing the key of
* the previous child, by sort order, or `null` if it is the first child.
* @param options - An object that can be used to configure `onlyOnce`, which
* then removes the listener after its first invocation.
* @returns A function that can be invoked to remove the listener.
*/
export declare function onChildAdded(query: Query, callback: (snapshot: DataSnapshot, previousChildName: string | null) => unknown, options: ListenOptions): Unsubscribe;
/**
* Listens for data changes at a particular location.
*
* This is the primary way to read data from a Database. Your callback
* will be triggered for the initial data and again whenever the data changes.
* Invoke the returned unsubscribe callback to stop receiving updates. See
* {@link https://firebase.google.com/docs/database/web/retrieve-data | Retrieve Data on the Web}
* for more details.
*
* An `onChildAdded` event will be triggered once for each initial child at this
* location, and it will be triggered again every time a new child is added. The
* `DataSnapshot` passed into the callback will reflect the data for the
* relevant child. For ordering purposes, it is passed a second argument which
* is a string containing the key of the previous sibling child by sort order,
* or `null` if it is the first child.
*
* @param query - The query to run.
* @param callback - A callback that fires when the specified event occurs.
* The callback will be passed a DataSnapshot and a string containing the key of
* the previous child, by sort order, or `null` if it is the first child.
* @param cancelCallback - An optional callback that will be notified if your
* event subscription is ever canceled because your client does not have
* permission to read this data (or it had permission but has now lost it).
* This callback will be passed an `Error` object indicating why the failure
* occurred.
* @param options - An object that can be used to configure `onlyOnce`, which
* then removes the listener after its first invocation.
* @returns A function that can be invoked to remove the listener.
*/
export declare function onChildAdded(query: Query, callback: (snapshot: DataSnapshot, previousChildName: string | null) => unknown, cancelCallback: (error: Error) => unknown, options: ListenOptions): Unsubscribe;
/**
* Listens for data changes at a particular location.
*
* This is the primary way to read data from a Database. Your callback
* will be triggered for the initial data and again whenever the data changes.
* Invoke the returned unsubscribe callback to stop receiving updates. See
* {@link https://firebase.google.com/docs/database/web/retrieve-data | Retrieve Data on the Web}
* for more details.
*
* An `onChildChanged` event will be triggered when the data stored in a child
* (or any of its descendants) changes. Note that a single `child_changed` event
* may represent multiple changes to the child. The `DataSnapshot` passed to the
* callback will contain the new child contents. For ordering purposes, the
* callback is also passed a second argument which is a string containing the
* key of the previous sibling child by sort order, or `null` if it is the first
* child.
*
* @param query - The query to run.
* @param callback - A callback that fires when the specified event occurs.
* The callback will be passed a DataSnapshot and a string containing the key of
* the previous child, by sort order, or `null` if it is the first child.
* @param cancelCallback - An optional callback that will be notified if your
* event subscription is ever canceled because your client does not have
* permission to read this data (or it had permission but has now lost it).
* This callback will be passed an `Error` object indicating why the failure
* occurred.
* @returns A function that can be invoked to remove the listener.
*/
export declare function onChildChanged(query: Query, callback: (snapshot: DataSnapshot, previousChildName: string | null) => unknown, cancelCallback?: (error: Error) => unknown): Unsubscribe;
/**
* Listens for data changes at a particular location.
*
* This is the primary way to read data from a Database. Your callback
* will be triggered for the initial data and again whenever the data changes.
* Invoke the returned unsubscribe callback to stop receiving updates. See
* {@link https://firebase.google.com/docs/database/web/retrieve-data | Retrieve Data on the Web}
* for more details.
*
* An `onChildChanged` event will be triggered when the data stored in a child
* (or any of its descendants) changes. Note that a single `child_changed` event
* may represent multiple changes to the child. The `DataSnapshot` passed to the
* callback will contain the new child contents. For ordering purposes, the
* callback is also passed a second argument which is a string containing the
* key of the previous sibling child by sort order, or `null` if it is the first
* child.
*
* @param query - The query to run.
* @param callback - A callback that fires when the specified event occurs.
* The callback will be passed a DataSnapshot and a string containing the key of
* the previous child, by sort order, or `null` if it is the first child.
* @param options - An object that can be used to configure `onlyOnce`, which
* then removes the listener after its first invocation.
* @returns A function that can be invoked to remove the listener.
*/
export declare function onChildChanged(query: Query, callback: (snapshot: DataSnapshot, previousChildName: string | null) => unknown, options: ListenOptions): Unsubscribe;
/**
* Listens for data changes at a particular location.
*
* This is the primary way to read data from a Database. Your callback
* will be triggered for the initial data and again whenever the data changes.
* Invoke the returned unsubscribe callback to stop receiving updates. See
* {@link https://firebase.google.com/docs/database/web/retrieve-data | Retrieve Data on the Web}
* for more details.
*
* An `onChildChanged` event will be triggered when the data stored in a child
* (or any of its descendants) changes. Note that a single `child_changed` event
* may represent multiple changes to the child. The `DataSnapshot` passed to the
* callback will contain the new child contents. For ordering purposes, the
* callback is also passed a second argument which is a string containing the
* key of the previous sibling child by sort order, or `null` if it is the first
* child.
*
* @param query - The query to run.
* @param callback - A callback that fires when the specified event occurs.
* The callback will be passed a DataSnapshot and a string containing the key of
* the previous child, by sort order, or `null` if it is the first child.
* @param cancelCallback - An optional callback that will be notified if your
* event subscription is ever canceled because your client does not have
* permission to read this data (or it had permission but has now lost it).
* This callback will be passed an `Error` object indicating why the failure
* occurred.
* @param options - An object that can be used to configure `onlyOnce`, which
* then removes the listener after its first invocation.
* @returns A function that can be invoked to remove the listener.
*/
export declare function onChildChanged(query: Query, callback: (snapshot: DataSnapshot, previousChildName: string | null) => unknown, cancelCallback: (error: Error) => unknown, options: ListenOptions): Unsubscribe;
/**
* Listens for data changes at a particular location.
*
* This is the primary way to read data from a Database. Your callback
* will be triggered for the initial data and again whenever the data changes.
* Invoke the returned unsubscribe callback to stop receiving updates. See
* {@link https://firebase.google.com/docs/database/web/retrieve-data | Retrieve Data on the Web}
* for more details.
*
* An `onChildMoved` event will be triggered when a child's sort order changes
* such that its position relative to its siblings changes. The `DataSnapshot`
* passed to the callback will be for the data of the child that has moved. It
* is also passed a second argument which is a string containing the key of the
* previous sibling child by sort order, or `null` if it is the first child.
*
* @param query - The query to run.
* @param callback - A callback that fires when the specified event occurs.
* The callback will be passed a DataSnapshot and a string containing the key of
* the previous child, by sort order, or `null` if it is the first child.
* @param cancelCallback - An optional callback that will be notified if your
* event subscription is ever canceled because your client does not have
* permission to read this data (or it had permission but has now lost it).
* This callback will be passed an `Error` object indicating why the failure
* occurred.
* @returns A function that can be invoked to remove the listener.
*/
export declare function onChildMoved(query: Query, callback: (snapshot: DataSnapshot, previousChildName: string | null) => unknown, cancelCallback?: (error: Error) => unknown): Unsubscribe;
/**
* Listens for data changes at a particular location.
*
* This is the primary way to read data from a Database. Your callback
* will be triggered for the initial data and again whenever the data changes.
* Invoke the returned unsubscribe callback to stop receiving updates. See
* {@link https://firebase.google.com/docs/database/web/retrieve-data | Retrieve Data on the Web}
* for more details.
*
* An `onChildMoved` event will be triggered when a child's sort order changes
* such that its position relative to its siblings changes. The `DataSnapshot`
* passed to the callback will be for the data of the child that has moved. It
* is also passed a second argument which is a string containing the key of the
* previous sibling child by sort order, or `null` if it is the first child.
*
* @param query - The query to run.
* @param callback - A callback that fires when the specified event occurs.
* The callback will be passed a DataSnapshot and a string containing the key of
* the previous child, by sort order, or `null` if it is the first child.
* @param options - An object that can be used to configure `onlyOnce`, which
* then removes the listener after its first invocation.
* @returns A function that can be invoked to remove the listener.
*/
export declare function onChildMoved(query: Query, callback: (snapshot: DataSnapshot, previousChildName: string | null) => unknown, options: ListenOptions): Unsubscribe;
/**
* Listens for data changes at a particular location.
*
* This is the primary way to read data from a Database. Your callback
* will be triggered for the initial data and again whenever the data changes.
* Invoke the returned unsubscribe callback to stop receiving updates. See
* {@link https://firebase.google.com/docs/database/web/retrieve-data | Retrieve Data on the Web}
* for more details.
*
* An `onChildMoved` event will be triggered when a child's sort order changes
* such that its position relative to its siblings changes. The `DataSnapshot`
* passed to the callback will be for the data of the child that has moved. It
* is also passed a second argument which is a string containing the key of the
* previous sibling child by sort order, or `null` if it is the first child.
*
* @param query - The query to run.
* @param callback - A callback that fires when the specified event occurs.
* The callback will be passed a DataSnapshot and a string containing the key of
* the previous child, by sort order, or `null` if it is the first child.
* @param cancelCallback - An optional callback that will be notified if your
* event subscription is ever canceled because your client does not have
* permission to read this data (or it had permission but has now lost it).
* This callback will be passed an `Error` object indicating why the failure
* occurred.
* @param options - An object that can be used to configure `onlyOnce`, which
* then removes the listener after its first invocation.
* @returns A function that can be invoked to remove the listener.
*/
export declare function onChildMoved(query: Query, callback: (snapshot: DataSnapshot, previousChildName: string | null) => unknown, cancelCallback: (error: Error) => unknown, options: ListenOptions): Unsubscribe;
/**
* Listens for data changes at a particular location.
*
* This is the primary way to read data from a Database. Your callback
* will be triggered for the initial data and again whenever the data changes.
* Invoke the returned unsubscribe callback to stop receiving updates. See
* {@link https://firebase.google.com/docs/database/web/retrieve-data | Retrieve Data on the Web}
* for more details.
*
* An `onChildRemoved` event will be triggered once every time a child is
* removed. The `DataSnapshot` passed into the callback will be the old data for
* the child that was removed. A child will get removed when either:
*
* - a client explicitly calls `remove()` on that child or one of its ancestors
* - a client calls `set(null)` on that child or one of its ancestors
* - that child has all of its children removed
* - there is a query in effect which now filters out the child (because it's
* sort order changed or the max limit was hit)
*
* @param query - The query to run.
* @param callback - A callback that fires when the specified event occurs.
* The callback will be passed a DataSnapshot and a string containing the key of
* the previous child, by sort order, or `null` if it is the first child.
* @param cancelCallback - An optional callback that will be notified if your
* event subscription is ever canceled because your client does not have
* permission to read this data (or it had permission but has now lost it).
* This callback will be passed an `Error` object indicating why the failure
* occurred.
* @returns A function that can be invoked to remove the listener.
*/
export declare function onChildRemoved(query: Query, callback: (snapshot: DataSnapshot) => unknown, cancelCallback?: (error: Error) => unknown): Unsubscribe;
/**
* Listens for data changes at a particular location.
*
* This is the primary way to read data from a Database. Your callback
* will be triggered for the initial data and again whenever the data changes.
* Invoke the returned unsubscribe callback to stop receiving updates. See
* {@link https://firebase.google.com/docs/database/web/retrieve-data | Retrieve Data on the Web}
* for more details.
*
* An `onChildRemoved` event will be triggered once every time a child is
* removed. The `DataSnapshot` passed into the callback will be the old data for
* the child that was removed. A child will get removed when either:
*
* - a client explicitly calls `remove()` on that child or one of its ancestors
* - a client calls `set(null)` on that child or one of its ancestors
* - that child has all of its children removed
* - there is a query in effect which now filters out the child (because it's
* sort order changed or the max limit was hit)
*
* @param query - The query to run.
* @param callback - A callback that fires when the specified event occurs.
* The callback will be passed a DataSnapshot and a string containing the key of
* the previous child, by sort order, or `null` if it is the first child.
* @param options - An object that can be used to configure `onlyOnce`, which
* then removes the listener after its first invocation.
* @returns A function that can be invoked to remove the listener.
*/
export declare function onChildRemoved(query: Query, callback: (snapshot: DataSnapshot) => unknown, options: ListenOptions): Unsubscribe;
/**
* Listens for data changes at a particular location.
*
* This is the primary way to read data from a Database. Your callback
* will be triggered for the initial data and again whenever the data changes.
* Invoke the returned unsubscribe callback to stop receiving updates. See
* {@link https://firebase.google.com/docs/database/web/retrieve-data | Retrieve Data on the Web}
* for more details.
*
* An `onChildRemoved` event will be triggered once every time a child is
* removed. The `DataSnapshot` passed into the callback will be the old data for
* the child that was removed. A child will get removed when either:
*
* - a client explicitly calls `remove()` on that child or one of its ancestors
* - a client calls `set(null)` on that child or one of its ancestors
* - that child has all of its children removed
* - there is a query in effect which now filters out the child (because it's
* sort order changed or the max limit was hit)
*
* @param query - The query to run.
* @param callback - A callback that fires when the specified event occurs.
* The callback will be passed a DataSnapshot and a string containing the key of
* the previous child, by sort order, or `null` if it is the first child.
* @param cancelCallback - An optional callback that will be notified if your
* event subscription is ever canceled because your client does not have
* permission to read this data (or it had permission but has now lost it).
* This callback will be passed an `Error` object indicating why the failure
* occurred.
* @param options - An object that can be used to configure `onlyOnce`, which
* then removes the listener after its first invocation.
* @returns A function that can be invoked to remove the listener.
*/
export declare function onChildRemoved(query: Query, callback: (snapshot: DataSnapshot) => unknown, cancelCallback: (error: Error) => unknown, options: ListenOptions): Unsubscribe;
/**
* The `onDisconnect` class allows you to write or clear data when your client
* disconnects from the Database server. These updates occur whether your
* client disconnects cleanly or not, so you can rely on them to clean up data
* even if a connection is dropped or a client crashes.
*
* The `onDisconnect` class is most commonly used to manage presence in
* applications where it is useful to detect how many clients are connected and
* when other clients disconnect. See
* {@link https://firebase.google.com/docs/database/web/offline-capabilities | Enabling Offline Capabilities in JavaScript}
* for more information.
*
* To avoid problems when a connection is dropped before the requests can be
* transferred to the Database server, these functions should be called before
* writing any data.
*
* Note that `onDisconnect` operations are only triggered once. If you want an
* operation to occur each time a disconnect occurs, you'll need to re-establish
* the `onDisconnect` operations each time you reconnect.
*/
export declare class OnDisconnect {
private _repo;
private _path;
/** @hideconstructor */
constructor(_repo: Repo, _path: Path);
/**
* Cancels all previously queued `onDisconnect()` set or update events for this
* location and all children.
*
* If a write has been queued for this location via a `set()` or `update()` at a
* parent location, the write at this location will be canceled, though writes
* to sibling locations will still occur.
*
* @returns Resolves when synchronization to the server is complete.
*/
cancel(): Promise<void>;
/**
* Ensures the data at this location is deleted when the client is disconnected
* (due to closing the browser, navigating to a new page, or network issues).
*
* @returns Resolves when synchronization to the server is complete.
*/
remove(): Promise<void>;
/**
* Ensures the data at this location is set to the specified value when the
* client is disconnected (due to closing the browser, navigating to a new page,
* or network issues).
*
* `set()` is especially useful for implementing "presence" systems, where a
* value should be changed or cleared when a user disconnects so that they
* appear "offline" to other users. See
* {@link https://firebase.google.com/docs/database/web/offline-capabilities | Enabling Offline Capabilities in JavaScript}
* for more information.
*
* Note that `onDisconnect` operations are only triggered once. If you want an
* operation to occur each time a disconnect occurs, you'll need to re-establish
* the `onDisconnect` operations each time.
*
* @param value - The value to be written to this location on disconnect (can
* be an object, array, string, number, boolean, or null).
* @returns Resolves when synchronization to the Database is complete.
*/
set(value: unknown): Promise<void>;
/**
* Ensures the data at this location is set to the specified value and priority
* when the client is disconnected (due to closing the browser, navigating to a
* new page, or network issues).
*
* @param value - The value to be written to this location on disconnect (can
* be an object, array, string, number, boolean, or null).
* @param priority - The priority to be written (string, number, or null).
* @returns Resolves when synchronization to the Database is complete.
*/
setWithPriority(value: unknown, priority: number | string | null): Promise<void>;
/**
* Writes multiple values at this location when the client is disconnected (due
* to closing the browser, navigating to a new page, or network issues).
*
* The `values` argument contains multiple property-value pairs that will be
* written to the Database together. Each child property can either be a simple
* property (for example, "name") or a relative path (for example, "name/first")
* from the current location to the data to update.
*
* As opposed to the `set()` method, `update()` can be use to selectively update
* only the referenced properties at the current location (instead of replacing
* all the child properties at the current location).
*
* @param values - Object containing multiple values.
* @returns Resolves when synchronization to the Database is complete.
*/
update(values: object): Promise<void>;
}
/**
* Returns an `OnDisconnect` object - see
* {@link https://firebase.google.com/docs/database/web/offline-capabilities | Enabling Offline Capabilities in JavaScript}
* for more information on how to use it.
*
* @param ref - The reference to add OnDisconnect triggers for.
*/
export declare function onDisconnect(ref: DatabaseReference): OnDisconnect;
/**
* Listens for data changes at a particular location.
*
* This is the primary way to read data from a Database. Your callback
* will be triggered for the initial data and again whenever the data changes.
* Invoke the returned unsubscribe callback to stop receiving updates. See
* {@link https://firebase.google.com/docs/database/web/retrieve-data | Retrieve Data on the Web}
* for more details.
*
* An `onValue` event will trigger once with the initial data stored at this
* location, and then trigger again each time the data changes. The
* `DataSnapshot` passed to the callback will be for the location at which
* `on()` was called. It won't trigger until the entire contents has been
* synchronized. If the location has no data, it will be triggered with an empty
* `DataSnapshot` (`val()` will return `null`).
*
* @param query - The query to run.
* @param callback - A callback that fires when the specified event occurs. The
* callback will be passed a DataSnapshot.
* @param cancelCallback - An optional callback that will be notified if your
* event subscription is ever canceled because your client does not have
* permission to read this data (or it had permission but has now lost it).
* This callback will be passed an `Error` object indicating why the failure
* occurred.
* @returns A function that can be invoked to remove the listener.
*/
export declare function onValue(query: Query, callback: (snapshot: DataSnapshot) => unknown, cancelCallback?: (error: Error) => unknown): Unsubscribe;
/**
* Listens for data changes at a particular location.
*
* This is the primary way to read data from a Database. Your callback
* will be triggered for the initial data and again whenever the data changes.
* Invoke the returned unsubscribe callback to stop receiving updates. See
* {@link https://firebase.google.com/docs/database/web/retrieve-data | Retrieve Data on the Web}
* for more details.
*
* An `onValue` event will trigger once with the initial data stored at this
* location, and then trigger again each time the data changes. The
* `DataSnapshot` passed to the callback will be for the location at which
* `on()` was called. It won't trigger until the entire contents has been
* synchronized. If the location has no data, it will be triggered with an empty
* `DataSnapshot` (`val()` will return `null`).
*
* @param query - The query to run.
* @param callback - A callback that fires when the specified event occurs. The
* callback will be passed a DataSnapshot.
* @param options - An object that can be used to configure `onlyOnce`, which
* then removes the listener after its first invocation.
* @returns A function that can be invoked to remove the listener.
*/
export declare function onValue(query: Query, callback: (snapshot: DataSnapshot) => unknown, options: ListenOptions): Unsubscribe;
/**
* Listens for data changes at a particular location.
*
* This is the primary way to read data from a Database. Your callback
* will be triggered for the initial data and again whenever the data changes.
* Invoke the returned unsubscribe callback to stop receiving updates. See
* {@link https://firebase.google.com/docs/database/web/retrieve-data | Retrieve Data on the Web}
* for more details.
*
* An `onValue` event will trigger once with the initial data stored at this
* location, and then trigger again each time the data changes. The
* `DataSnapshot` passed to the callback will be for the location at which
* `on()` was called. It won't trigger until the entire contents has been
* synchronized. If the location has no data, it will be triggered with an empty
* `DataSnapshot` (`val()` will return `null`).
*
* @param query - The query to run.
* @param callback - A callback that fires when the specified event occurs. The
* callback will be passed a DataSnapshot.
* @param cancelCallback - An optional callback that will be notified if your
* event subscription is ever canceled because your client does not have
* permission to read this data (or it had permission but has now lost it).
* This callback will be passed an `Error` object indicating why the failure
* occurred.
* @param options - An object that can be used to configure `onlyOnce`, which
* then removes the listener after its first invocation.
* @returns A function that can be invoked to remove the listener.
*/
export declare function onValue(query: Query, callback: (snapshot: DataSnapshot) => unknown, cancelCallback: (error: Error) => unknown, options: ListenOptions): Unsubscribe;
/**
* Creates a new `QueryConstraint` that orders by the specified child key.
*
* Queries can only order by one key at a time. Calling `orderByChild()`
* multiple times on the same query is an error.
*
* Firebase queries allow you to order your data by any child key on the fly.
* However, if you know in advance what your indexes will be, you can define
* them via the .indexOn rule in your Security Rules for better performance. See
* the{@link https://firebase.google.com/docs/database/security/indexing-data}
* rule for more information.
*
* You can read more about `orderByChild()` in
* {@link https://firebase.google.com/docs/database/web/lists-of-data#sort_data | Sort data}.
*
* @param path - The path to order by.
*/
export declare function orderByChild(path: string): QueryConstraint;
/**
* Creates a new `QueryConstraint` that orders by the key.
*
* Sorts the results of a query by their (ascending) key values.
*
* You can read more about `orderByKey()` in
* {@link https://firebase.google.com/docs/database/web/lists-of-data#sort_data | Sort data}.
*/
export declare function orderByKey(): QueryConstraint;
/**
* Creates a new `QueryConstraint` that orders by priority.
*
* Applications need not use priority but can order collections by
* ordinary properties (see
* {@link https://firebase.google.com/docs/database/web/lists-of-data#sort_data | Sort data}
* for alternatives to priority.
*/
export declare function orderByPriority(): QueryConstraint;
/**
* Creates a new `QueryConstraint` that orders by value.
*
* If the children of a query are all scalar values (string, number, or
* boolean), you can order the results by their (ascending) values.
*
* You can read more about `orderByValue()` in
* {@link https://firebase.google.com/docs/database/web/lists-of-data#sort_data | Sort data}.
*/
export declare function orderByValue(): QueryConstraint;
/**
* @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 parsed path. It's immutable so that you
* can pass them around to other functions without worrying about them changing
* it.
*/
declare class Path {
pieces_: string[];
pieceNum_: number;
/**
* @param pathOrString - Path string to parse, or another path, or the raw
* tokens array
*/
constructor(pathOrString: string | string[], pieceNum?: number);
toString(): string;
}
/**
* Firebase connection. Abstracts wire protocol and handles reconnecting.
*
* NOTE: All JSON objects sent to the realtime connection must have property names enclosed
* in quotes to make sure the closure compiler does not minify them.
*/
declare class PersistentConnection extends ServerActions {
private repoInfo_;
private applicationId_;
private onDataUpdate_;
private onConnectStatus_;
private onServerInfoUpdate_;
private authTokenProvider_;
private appCheckTokenProvider_;
private authOverride_?;
id: number;
private log_;
private interruptReasons_;
private readonly listens;
private outstandingPuts_;
private outstandingGets_;
private outstandingPutCount_;
private outstandingGetCount_;
private onDisconnectRequestQueue_;
private connected_;
private reconnectDelay_;
private maxReconnectDelay_;
private securityDebugCallback_;
lastSessionId: string | null;
private establishConnectionTimer_;
private visible_;
private requestCBHash_;
private requestNumber_;
private realtime_;
private authToken_;
private appCheckToken_;
private forceTokenRefresh_;
private invalidAuthTokenCount_;
private invalidAppCheckTokenCount_;
private firstConnection_;
private lastConnectionAttemptTime_;
private lastConnectionEstablishedTime_;
private static nextPersistentConnectionId_;
/**
* Counter for number of connections created. Mainly used for tagging in the logs
*/
private static nextConnectionId_;
/**
* @param repoInfo_ - Data about the namespace we are connecting to
* @param applicationId_ - The Firebase App ID for this project
* @param onDataUpdate_ - A callback for new data from the server
*/
constructor(repoInfo_: RepoInfo, applicationId_: string, onDataUpdate_: (a: string, b: unknown, c: boolean, d: number | null) => void, onConnectStatus_: (a: boolean) => void, onServerInfoUpdate_: (a: unknown) => void, authTokenProvider_: AuthTokenProvider, appCheckTokenProvider_: AppCheckTokenProvider, authOverride_?: object | null);
protected sendRequest(action: string, body: unknown, onResponse?: (a: unknown) => void): void;
get(query: QueryContext): Promise<string>;
listen(query: QueryContext, currentHashFn: () => string, tag: number | null, onComplete: (a: string, b: unknown) => void): void;
private sendGet_;
private sendListen_;
private static warnOnListenWarnings_;
refreshAuthToken(token: string): void;
private reduceReconnectDelayIfAdminCredential_;
refreshAppCheckToken(token: string | null): void;
/**
* Attempts to authenticate with the given credentials. If the authentication attempt fails, it's triggered like
* a auth revoked (the connection is closed).
*/
tryAuth(): void;
/**
* Attempts to authenticate with the given token. If the authentication
* attempt fails, it's triggered like the token was revoked (the connection is
* closed).
*/
tryAppCheck(): void;
/**
* @inheritDoc
*/
unlisten(query: QueryContext, tag: number | null): void;
private sendUnlisten_;
onDisconnectPut(pathString: string, data: unknown, onComplete?: (a: string, b: string) => void): void;
onDisconnectMerge(pathString: string, data: unknown, onComplete?: (a: string, b: string) => void): void;
onDisconnectCancel(pathString: string, onComplete?: (a: string, b: string) => void): void;
private sendOnDisconnect_;
put(pathString: string, data: unknown, onComplete?: (a: string, b: string) => void, hash?: string): void;
merge(pathString: string, data: unknown, onComplete: (a: string, b: string | null) => void, hash?: string): void;
putInternal(action: string, pathString: string, data: unknown, onComplete: (a: string, b: string | null) => void, hash?: string): void;
private sendPut_;
reportStats(stats: {
[k: string]: unknown;
}): void;
private onDataMessage_;
private onDataPush_;
private onReady_;
private scheduleConnect_;
private initConnection_;
private onVisible_;
private onOnline_;
private onRealtimeDisconnect_;
private establishConnection_;
interrupt(reason: string): void;
resume(reason: string): void;
private handleTimestamp_;
private cancelSentTransactions_;
private onListenRevoked_;
private removeListen_;
private onAuthRevoked_;
private onAppCheckRevoked_;
private onSecurityDebugPacket_;
private restoreState_;
/**
* Sends client stats for first connection
*/
private sendConnectStats_;
private shouldReconnect_;
}
declare class PriorityIndex extends Index {
compare(a: NamedNode, b: NamedNode): number;
isDefinedOn(node: Node_2): boolean;
indexedValueChanged(oldNode: Node_2, newNode: Node_2): boolean;
minPost(): NamedNode;
maxPost(): NamedNode;
makePost(indexValue: unknown, name: string): NamedNode;
/**
* @returns String representation for inclusion in a query spec
*/
toString(): string;
}
/**
* Generates a new child location using a unique key and returns its
* `Reference`.
*
* This is the most common pattern for adding data to a collection of items.
*
* If you provide a value to `push()`, the value is written to the
* generated location. If you don't pass a value, nothing is written to the
* database and the child remains empty (but you can use the `Reference`
* elsewhere).
*
* The unique keys generated by `push()` are ordered by the current time, so the
* resulting list of items is chronologically sorted. The keys are also
* designed to be unguessable (they contain 72 random bits of entropy).
*
* See {@link https://firebase.google.com/docs/database/web/lists-of-data#append_to_a_list_of_data | Append to a list of data}.
* See {@link https://firebase.googleblog.com/2015/02/the-2120-ways-to-ensure-unique_68.html | The 2^120 Ways to Ensure Unique Identifiers}.
*
* @param parent - The parent location.
* @param value - Optional value to be written at the generated location.
* @returns Combined `Promise` and `Reference`; resolves when write is complete,
* but can be used immediately as the `Reference` to the child location.
*/
export declare function push(parent: DatabaseReference, value?: unknown): ThenableReference;
/**
* @license
* Copyright 2021 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* A `Query` sorts and filters the data at a Database location so only a subset
* of the child data is included. This can be used to order a collection of
* data by some attribute (for example, height of dinosaurs) as well as to
* restrict a large list of items (for example, chat messages) down to a number
* suitable for synchronizing to the client. Queries are created by chaining
* together one or more of the filter methods defined here.
*
* Just as with a `DatabaseReference`, you can receive data from a `Query` by using the
* `on*()` methods. You will only receive events and `DataSnapshot`s for the
* subset of the data that matches your query.
*
* See {@link https://firebase.google.com/docs/database/web/lists-of-data#sorting_and_filtering_data}
* for more information.
*/
export declare interface Query extends QueryContext {
/** The `DatabaseReference` for the `Query`'s location. */
readonly ref: DatabaseReference;
/**
* Returns whether or not the current and provided queries represent the same
* location, have the same query parameters, and are from the same instance of
* `FirebaseApp`.
*
* Two `DatabaseReference` objects are equivalent if they represent the same location
* and are from the same instance of `FirebaseApp`.
*
* Two `Query` objects are equivalent if they represent the same location,
* have the same query parameters, and are from the same instance of
* `FirebaseApp`. Equivalent queries share the same sort order, limits, and
* starting and ending points.
*
* @param other - The query to compare against.
* @returns Whether or not the current and provided queries are equivalent.
*/
isEqual(other: Query | null): boolean;
/**
* Returns a JSON-serializable representation of this object.
*
* @returns A JSON-serializable representation of this object.
*/
toJSON(): string;
/**
* Gets the absolute URL for this location.
*
* The `toString()` method returns a URL that is ready to be put into a
* browser, curl command, or a `refFromURL()` call. Since all of those expect
* the URL to be url-encoded, `toString()` returns an encoded URL.
*
* Append '.json' to the returned URL when typed into a browser to download
* JSON-formatted data. If the location is secured (that is, not publicly
* readable), you will get a permission-denied error.
*
* @returns The absolute URL for this location.
*/
toString(): string;
}
/**
* Creates a new immutable instance of `Query` that is extended to also include
* additional query constraints.
*
* @param query - The Query instance to use as a base for the new constraints.
* @param queryConstraints - The list of `QueryConstraint`s to apply.
* @throws if any of the provided query constraints cannot be combined with the
* existing or new constraints.
*/
export declare function query(query: Query, ...queryConstraints: QueryConstraint[]): Query;
/**
* A `QueryConstraint` is used to narrow the set of documents returned by a
* Database query. `QueryConstraint`s are created by invoking {@link endAt},
* {@link endBefore}, {@link startAt}, {@link startAfter}, {@link
* limitToFirst}, {@link limitToLast}, {@link orderByChild},
* {@link orderByChild}, {@link orderByKey} , {@link orderByPriority} ,
* {@link orderByValue} or {@link equalTo} and
* can then be passed to {@link query} to create a new query instance that
* also contains this `QueryConstraint`.
*/
export declare abstract class QueryConstraint {
/** The type of this query constraints */
abstract readonly type: QueryConstraintType;
/**
* Takes the provided `Query` and returns a copy of the `Query` with this
* `QueryConstraint` applied.
*/
abstract _apply<T>(query: _QueryImpl): _QueryImpl;
}
/** Describes the different query constraints available in this SDK. */
export declare type QueryConstraintType = 'endAt' | 'endBefore' | 'startAt' | 'startAfter' | 'limitToFirst' | 'limitToLast' | 'orderByChild' | 'orderByKey' | 'orderByPriority' | 'orderByValue' | 'equalTo';
declare interface QueryContext {
readonly _queryIdentifier: string;
readonly _queryObject: object;
readonly _repo: Repo;
readonly _path: Path;
readonly _queryParams: _QueryParams;
}
/**
* @internal
*/
export declare class _QueryImpl implements Query, QueryContext {
readonly _repo: Repo;
readonly _path: Path;
readonly _queryParams: _QueryParams;
readonly _orderByCalled: boolean;
/**
* @hideconstructor
*/
constructor(_repo: Repo, _path: Path, _queryParams: _QueryParams, _orderByCalled: boolean);
get key(): string | null;
get ref(): DatabaseReference;
get _queryIdentifier(): string;
/**
* An object representation of the query parameters used by this Query.
*/
get _queryObject(): object;
isEqual(other: _QueryImpl | null): boolean;
toJSON(): string;
toString(): string;
}
/**
* This class is an immutable-from-the-public-api struct containing a set of query parameters defining a
* range to be returned for a particular location. It is assumed that validation of parameters is done at the
* user-facing API level, so it is not done here.
*
* @internal
*/
export declare class _QueryParams {
limitSet_: boolean;
startSet_: boolean;
startNameSet_: boolean;
startAfterSet_: boolean;
endSet_: boolean;
endNameSet_: boolean;
endBeforeSet_: boolean;
limit_: number;
viewFrom_: string;
indexStartValue_: unknown | null;
indexStartName_: string;
indexEndValue_: unknown | null;
indexEndName_: string;
index_: PriorityIndex;
hasStart(): boolean;
/**
* @returns True if it would return from left.
*/
isViewFromLeft(): boolean;
/**
* Only valid to call if hasStart() returns true
*/
getIndexStartValue(): unknown;
/**
* Only valid to call if hasStart() returns true.
* Returns the starting key name for the range defined by these query parameters
*/
getIndexStartName(): string;
hasEnd(): boolean;
/**
* Only valid to call if hasEnd() returns true.
*/
getIndexEndValue(): unknown;
/**
* Only valid to call if hasEnd() returns true.
* Returns the end key name for the range defined by these query parameters
*/
getIndexEndName(): string;
hasLimit(): boolean;
/**
* @returns True if a limit has been set and it has been explicitly anchored
*/
hasAnchoredLimit(): boolean;
/**
* Only valid to call if hasLimit() returns true
*/
getLimit(): number;
getIndex(): Index;
loadsAllData(): boolean;
isDefault(): boolean;
copy(): _QueryParams;
}
/**
*
* Returns a `Reference` representing the location in the Database
* corresponding to the provided path. If no path is provided, the `Reference`
* will point to the root of the Database.
*
* @param db - The database instance to obtain a reference for.
* @param path - Optional path representing the location the returned
* `Reference` will point. If not provided, the returned `Reference` will
* point to the root of the Database.
* @returns If a path is provided, a `Reference`
* pointing to the provided path. Otherwise, a `Reference` pointing to the
* root of the Database.
*/
export declare function ref(db: Database, path?: string): DatabaseReference;
/**
* @internal
*/
export declare class _ReferenceImpl extends _QueryImpl implements DatabaseReference {
/** @hideconstructor */
constructor(repo: Repo, path: Path);
get parent(): _ReferenceImpl | null;
get root(): _ReferenceImpl;
}
/**
* Returns a `Reference` representing the location in the Database
* corresponding to the provided Firebase URL.
*
* An exception is thrown if the URL is not a valid Firebase Database URL or it
* has a different domain than the current `Database` instance.
*
* Note that all query parameters (`orderBy`, `limitToLast`, etc.) are ignored
* and are not applied to the returned `Reference`.
*
* @param db - The database instance to obtain a reference for.
* @param url - The Firebase URL at which the returned `Reference` will
* point.
* @returns A `Reference` pointing to the provided
* Firebase URL.
*/
export declare function refFromURL(db: Database, url: string): DatabaseReference;
/**
* Removes the data at this Database location.
*
* Any data at child locations will also be deleted.
*
* The effect of the remove will be visible immediately and the corresponding
* event 'value' will be triggered. Synchronization of the remove to the
* Firebase servers will also be started, and the returned Promise will resolve
* when complete. If provided, the onComplete callback will be called
* asynchronously after synchronization has finished.
*
* @param ref - The location to remove.
* @returns Resolves when remove on server is complete.
*/
export declare function remove(ref: DatabaseReference): Promise<void>;
/**
* A connection to a single data repository.
*/
declare class Repo {
repoInfo_: RepoInfo;
forceRestClient_: boolean;
authTokenProvider_: AuthTokenProvider;
appCheckProvider_: AppCheckTokenProvider;
/** Key for uniquely identifying this repo, used in RepoManager */
readonly key: string;
dataUpdateCount: number;
infoSyncTree_: SyncTree;
serverSyncTree_: SyncTree;
stats_: StatsCollection;
statsListener_: StatsListener | null;
eventQueue_: EventQueue;
nextWriteId_: number;
server_: ServerActions;
statsReporter_: StatsReporter;
infoData_: SnapshotHolder;
interceptServerDataCallback_: ((a: string, b: unknown) => void) | null;
/** A list of data pieces and paths to be set when this client disconnects. */
onDisconnect_: SparseSnapshotTree;
/** Stores queues of outstanding transactions for Firebase locations. */
transactionQueueTree_: Tree<Transaction[]>;
persistentConnection_: PersistentConnection | null;
constructor(repoInfo_: RepoInfo, forceRestClient_: boolean, authTokenProvider_: AuthTokenProvider, appCheckProvider_: AppCheckTokenProvider);
/**
* @returns The URL corresponding to the root of this Firebase.
*/
toString(): string;
}
/**
* @license
* Copyright 2017 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* A class that holds metadata about a Repo object
*/
declare class RepoInfo {
readonly secure: boolean;
readonly namespace: string;
readonly webSocketOnly: boolean;
readonly nodeAdmin: boolean;
readonly persistenceKey: string;
readonly includeNamespaceInQueryParams: boolean;
private _host;
private _domain;
internalHost: string;
/**
* @param host - Hostname portion of the url for the repo
* @param secure - Whether or not this repo is accessed over ssl
* @param namespace - The namespace represented by the repo
* @param webSocketOnly - Whether to prefer websockets over all other transports (used by Nest).
* @param nodeAdmin - Whether this instance uses Admin SDK credentials
* @param persistenceKey - Override the default session persistence storage key
*/
constructor(host: string, secure: boolean, namespace: string, webSocketOnly: boolean, nodeAdmin?: boolean, persistenceKey?: string, includeNamespaceInQueryParams?: boolean);
isCacheableHost(): boolean;
isCustomHost(): boolean;
get host(): string;
set host(newHost: string);
toString(): string;
toURLString(): string;
}
/**
* This function should only ever be called to CREATE a new database instance.
* @internal
*/
export declare function _repoManagerDatabaseFromApp(app: FirebaseApp, authProvider: Provider<FirebaseAuthInternalName>, appCheckProvider?: Provider<AppCheckInternalComponentName>, url?: string, nodeAdmin?: boolean): Database;
/**
* Atomically modifies the data at this location.
*
* Atomically modify the data at this location. Unlike a normal `set()`, which
* just overwrites the data regardless of its previous value, `runTransaction()` is
* used to modify the existing value to a new value, ensuring there are no
* conflicts with other clients writing to the same location at the same time.
*
* To accomplish this, you pass `runTransaction()` an update function which is
* used to transform the current value into a new value. If another client
* writes to the location before your new value is successfully written, your
* update function will be called again with the new current value, and the
* write will be retried. This will happen repeatedly until your write succeeds
* without conflict or you abort the transaction by not returning a value from
* your update function.
*
* Note: Modifying data with `set()` will cancel any pending transactions at
* that location, so extreme care should be taken if mixing `set()` and
* `runTransaction()` to update the same data.
*
* Note: When using transactions with Security and Firebase Rules in place, be
* aware that a client needs `.read` access in addition to `.write` access in
* order to perform a transaction. This is because the client-side nature of
* transactions requires the client to read the data in order to transactionally
* update it.
*
* @param ref - The location to atomically modify.
* @param transactionUpdate - A developer-supplied function which will be passed
* the current data stored at this location (as a JavaScript object). The
* function should return the new value it would like written (as a JavaScript
* object). If `undefined` is returned (i.e. you return with no arguments) the
* transaction will be aborted and the data at this location will not be
* modified.
* @param options - An options object to configure transactions.
* @returns A `Promise` that can optionally be used instead of the `onComplete`
* callback to handle success and failure.
*/
export declare function runTransaction(ref: DatabaseReference, transactionUpdate: (currentData: any) => unknown, options?: TransactionOptions): Promise<TransactionResult>;
/**
* Interface defining the set of actions that can be performed against the Firebase server
* (basically corresponds to our wire protocol).
*
* @interface
*/
declare abstract class ServerActions {
abstract listen(query: QueryContext, currentHashFn: () => string, tag: number | null, onComplete: (a: string, b: unknown) => void): void;
/**
* Remove a listen.
*/
abstract unlisten(query: QueryContext, tag: number | null): void;
/**
* Get the server value satisfying this query.
*/
abstract get(query: QueryContext): Promise<string>;
put(pathString: string, data: unknown, onComplete?: (a: string, b: string) => void, hash?: string): void;
merge(pathString: string, data: unknown, onComplete: (a: string, b: string | null) => void, hash?: string): void;
/**
* Refreshes the auth token for the current connection.
* @param token - The authentication token
*/
refreshAuthToken(token: string): void;
/**
* Refreshes the app check token for the current connection.
* @param token The app check token
*/
refreshAppCheckToken(token: string): void;
onDisconnectPut(pathString: string, data: unknown, onComplete?: (a: string, b: string) => void): void;
onDisconnectMerge(pathString: string, data: unknown, onComplete?: (a: string, b: string) => void): void;
onDisconnectCancel(pathString: string, onComplete?: (a: string, b: string) => void): void;
reportStats(stats: {
[k: string]: unknown;
}): void;
}
/**
* @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 placeholder value for auto-populating the current timestamp (time
* since the Unix epoch, in milliseconds) as determined by the Firebase
* servers.
*/
export declare function serverTimestamp(): object;
/**
* Writes data to this Database location.
*
* This will overwrite any data at this location and all child locations.
*
* The effect of the write will be visible immediately, and the corresponding
* events ("value", "child_added", etc.) will be triggered. Synchronization of
* the data to the Firebase servers will also be started, and the returned
* Promise will resolve when complete. If provided, the `onComplete` callback
* will be called asynchronously after synchronization has finished.
*
* Passing `null` for the new value is equivalent to calling `remove()`; namely,
* all data at this location and all child locations will be deleted.
*
* `set()` will remove any priority stored at this location, so if priority is
* meant to be preserved, you need to use `setWithPriority()` instead.
*
* Note that modifying data with `set()` will cancel any pending transactions
* at that location, so extreme care should be taken if mixing `set()` and
* `transaction()` to modify the same data.
*
* A single `set()` will generate a single "value" event at the location where
* the `set()` was performed.
*
* @param ref - The location to write to.
* @param value - The value to be written (string, number, boolean, object,
* array, or null).
* @returns Resolves when write to server is complete.
*/
export declare function set(ref: DatabaseReference, value: unknown): Promise<void>;
/**
* Sets a priority for the data at this Database location.
*
* Applications need not use priority but can order collections by
* ordinary properties (see
* {@link https://firebase.google.com/docs/database/web/lists-of-data#sorting_and_filtering_data | Sorting and filtering data}
* ).
*
* @param ref - The location to write to.
* @param priority - The priority to be written (string, number, or null).
* @returns Resolves when write to server is complete.
*/
export declare function setPriority(ref: DatabaseReference, priority: string | number | null): Promise<void>;
/**
* SDK_VERSION should be set before any database instance is created
* @internal
*/
export declare function _setSDKVersion(version: string): void;
/**
* Writes data the Database location. Like `set()` but also specifies the
* priority for that data.
*
* Applications need not use priority but can order collections by
* ordinary properties (see
* {@link https://firebase.google.com/docs/database/web/lists-of-data#sorting_and_filtering_data | Sorting and filtering data}
* ).
*
* @param ref - The location to write to.
* @param value - The value to be written (string, number, boolean, object,
* array, or null).
* @param priority - The priority to be written (string, number, or null).
* @returns Resolves when write to server is complete.
*/
export declare function setWithPriority(ref: DatabaseReference, value: unknown, priority: string | number | null): Promise<void>;
/**
* Mutable object which basically just stores a reference to the "latest" immutable snapshot.
*/
declare class SnapshotHolder {
private rootNode_;
getNode(path: Path): Node_2;
updateSnapshot(path: Path, newSnapshotNode: Node_2): void;
}
/**
* An immutable sorted map implementation, based on a Left-leaning Red-Black
* tree.
*/
declare class SortedMap<K, V> {
private comparator_;
private root_;
/**
* Always use the same empty node, to reduce memory.
*/
static EMPTY_NODE: LLRBEmptyNode<unknown, unknown>;
/**
* @param comparator_ - Key comparator.
* @param root_ - Optional root node for the map.
*/
constructor(comparator_: Comparator<K>, root_?: LLRBNode<K, V> | LLRBEmptyNode<K, V>);
/**
* Returns a copy of the map, with the specified key/value added or replaced.
* (TODO: We should perhaps rename this method to 'put')
*
* @param key - Key to be added.
* @param value - Value to be added.
* @returns New map, with item added.
*/
insert(key: K, value: V): SortedMap<K, V>;
/**
* Returns a copy of the map, with the specified key removed.
*
* @param key - The key to remove.
* @returns New map, with item removed.
*/
remove(key: K): SortedMap<K, V>;
/**
* Returns the value of the node with the given key, or null.
*
* @param key - The key to look up.
* @returns The value of the node with the given key, or null if the
* key doesn't exist.
*/
get(key: K): V | null;
/**
* Returns the key of the item *before* the specified key, or null if key is the first item.
* @param key - The key to find the predecessor of
* @returns The predecessor key.
*/
getPredecessorKey(key: K): K | null;
/**
* @returns True if the map is empty.
*/
isEmpty(): boolean;
/**
* @returns The total number of nodes in the map.
*/
count(): number;
/**
* @returns The minimum key in the map.
*/
minKey(): K | null;
/**
* @returns The maximum key in the map.
*/
maxKey(): K | null;
/**
* Traverses the map in key order and calls the specified action function
* for each key/value pair.
*
* @param action - Callback function to be called
* for each key/value pair. If action returns true, traversal is aborted.
* @returns The first truthy value returned by action, or the last falsey
* value returned by action
*/
inorderTraversal(action: (k: K, v: V) => unknown): boolean;
/**
* Traverses the map in reverse key order and calls the specified action function
* for each key/value pair.
*
* @param action - Callback function to be called
* for each key/value pair. If action returns true, traversal is aborted.
* @returns True if the traversal was aborted.
*/
reverseTraversal(action: (k: K, v: V) => void): boolean;
/**
* Returns an iterator over the SortedMap.
* @returns The iterator.
*/
getIterator<T>(resultGenerator?: (k: K, v: V) => T): SortedMapIterator<K, V, T>;
getIteratorFrom<T>(key: K, resultGenerator?: (k: K, v: V) => T): SortedMapIterator<K, V, T>;
getReverseIteratorFrom<T>(key: K, resultGenerator?: (k: K, v: V) => T): SortedMapIterator<K, V, T>;
getReverseIterator<T>(resultGenerator?: (k: K, v: V) => T): SortedMapIterator<K, V, T>;
}
/**
* An iterator over an LLRBNode.
*/
declare class SortedMapIterator<K, V, T> {
private isReverse_;
private resultGenerator_;
private nodeStack_;
/**
* @param node - Node to iterate.
* @param isReverse_ - Whether or not to iterate in reverse
*/
constructor(node: LLRBNode<K, V> | LLRBEmptyNode<K, V>, startKey: K | null, comparator: Comparator<K>, isReverse_: boolean, resultGenerator_?: ((k: K, v: V) => T) | null);
getNext(): T;
hasNext(): boolean;
peek(): T;
}
/**
* Helper class to store a sparse set of snapshots.
*/
declare interface SparseSnapshotTree {
value: Node_2 | null;
readonly children: Map<string, SparseSnapshotTree>;
}
/**
* Creates a `QueryConstraint` with the specified starting point (exclusive).
*
* Using `startAt()`, `startAfter()`, `endBefore()`, `endAt()` and `equalTo()`
* allows you to choose arbitrary starting and ending points for your queries.
*
* The starting point is exclusive. If only a value is provided, children
* with a value greater than the specified value will be included in the query.
* If a key is specified, then children must have a value greater than or equal
* to the specified value and a a key name greater than the specified key.
*
* @param value - The value to start after. The argument type depends on which
* `orderBy*()` function was used in this query. Specify a value that matches
* the `orderBy*()` type. When used in combination with `orderByKey()`, the
* value must be a string.
* @param key - The child key to start after. This argument is only allowed if
* ordering by child, value, or priority.
*/
export declare function startAfter(value: number | string | boolean | null, key?: string): QueryConstraint;
/**
* Creates a `QueryConstraint` with the specified starting point.
*
* Using `startAt()`, `startAfter()`, `endBefore()`, `endAt()` and `equalTo()`
* allows you to choose arbitrary starting and ending points for your queries.
*
* The starting point is inclusive, so children with exactly the specified value
* will be included in the query. The optional key argument can be used to
* further limit the range of the query. If it is specified, then children that
* have exactly the specified value must also have a key name greater than or
* equal to the specified key.
*
* You can read more about `startAt()` in
* {@link https://firebase.google.com/docs/database/web/lists-of-data#filtering_data | Filtering data}.
*
* @param value - The value to start at. The argument type depends on which
* `orderBy*()` function was used in this query. Specify a value that matches
* the `orderBy*()` type. When used in combination with `orderByKey()`, the
* value must be a string.
* @param key - The child key to start at. This argument is only allowed if
* ordering by child, value, or priority.
*/
export declare function startAt(value?: number | string | boolean | null, key?: string): QueryConstraint;
/**
* @license
* Copyright 2017 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* Tracks a collection of stats.
*/
declare class StatsCollection {
private counters_;
incrementCounter(name: string, amount?: number): void;
get(): {
[k: string]: number;
};
}
/**
* Returns the delta from the previous call to get stats.
*
* @param collection_ - The collection to "listen" to.
*/
declare class StatsListener {
private collection_;
private last_;
constructor(collection_: StatsCollection);
get(): {
[k: string]: number;
};
}
declare class StatsReporter {
private server_;
private statsListener_;
statsToReport_: {
[k: string]: boolean;
};
constructor(collection: StatsCollection, server_: ServerActions);
private reportStats_;
}
/**
* SyncPoint represents a single location in a SyncTree with 1 or more event registrations, meaning we need to
* maintain 1 or more Views at this location to cache server data and raise appropriate events for server changes
* and user writes (set, transaction, update).
*
* It's responsible for:
* - Maintaining the set of 1 or more views necessary at this location (a SyncPoint with 0 views should be removed).
* - Proxying user / server operations to the views as appropriate (i.e. applyServerOverwrite,
* applyUserOverwrite, etc.)
*/
declare class SyncPoint {
/**
* The Views being tracked at this location in the tree, stored as a map where the key is a
* queryId and the value is the View for that query.
*
* NOTE: This list will be quite small (usually 1, but perhaps 2 or 3; any more is an odd use case).
*/
readonly views: Map<string, View>;
}
/**
* SyncTree is the central class for managing event callback registration, data caching, views
* (query processing), and event generation. There are typically two SyncTree instances for
* each Repo, one for the normal Firebase data, and one for the .info data.
*
* It has a number of responsibilities, including:
* - Tracking all user event callbacks (registered via addEventRegistration() and removeEventRegistration()).
* - Applying and caching data changes for user set(), transaction(), and update() calls
* (applyUserOverwrite(), applyUserMerge()).
* - Applying and caching data changes for server data changes (applyServerOverwrite(),
* applyServerMerge()).
* - Generating user-facing events for server and user changes (all of the apply* methods
* return the set of events that need to be raised as a result).
* - Maintaining the appropriate set of server listens to ensure we are always subscribed
* to the correct set of paths and queries to satisfy the current set of user event
* callbacks (listens are started/stopped using the provided listenProvider).
*
* NOTE: Although SyncTree tracks event callbacks and calculates events to raise, the actual
* events are returned to the caller rather than raised synchronously.
*
*/
declare class SyncTree {
listenProvider_: ListenProvider;
/**
* Tree of SyncPoints. There's a SyncPoint at any location that has 1 or more views.
*/
syncPointTree_: ImmutableTree<SyncPoint>;
/**
* A tree of all pending user writes (user-initiated set()'s, transaction()'s, update()'s, etc.).
*/
pendingWriteTree_: WriteTree;
readonly tagToQueryMap: Map<number, string>;
readonly queryToTagMap: Map<string, number>;
/**
* @param listenProvider_ - Used by SyncTree to start / stop listening
* to server data.
*/
constructor(listenProvider_: ListenProvider);
}
/**
* Forces the RepoManager to create Repos that use ReadonlyRestClient instead of PersistentConnection.
* @internal
*/
export declare const _TEST_ACCESS_forceRestClient: (forceRestClient: boolean) => void;
/**
* @internal
*/
export declare const _TEST_ACCESS_hijackHash: (newHash: () => string) => () => void;
/**
* A `Promise` that can also act as a `DatabaseReference` when returned by
* {@link push}. The reference is available immediately and the `Promise` resolves
* as the write to the backend completes.
*/
export declare interface ThenableReference extends DatabaseReference, Pick<Promise<DatabaseReference>, 'then' | 'catch'> {
}
declare interface Transaction {
path: Path;
update: (a: unknown) => unknown;
onComplete: (error: Error | null, committed: boolean, node: Node_2 | null) => void;
status: TransactionStatus;
order: number;
applyLocally: boolean;
retryCount: number;
unwatcher: () => void;
abortReason: string | null;
currentWriteId: number;
currentInputSnapshot: Node_2 | null;
currentOutputSnapshotRaw: Node_2 | null;
currentOutputSnapshotResolved: Node_2 | null;
}
/** An options object to configure transactions. */
export declare interface TransactionOptions {
/**
* By default, events are raised each time the transaction update function
* runs. So if it is run multiple times, you may see intermediate states. You
* can set this to false to suppress these intermediate states and instead
* wait until the transaction has completed before events are raised.
*/
readonly applyLocally?: boolean;
}
/**
* A type for the resolve value of {@link runTransaction}.
*/
export declare class TransactionResult {
/** Whether the transaction was successfully committed. */
readonly committed: boolean;
/** The resulting data snapshot. */
readonly snapshot: DataSnapshot;
/** @hideconstructor */
constructor(
/** Whether the transaction was successfully committed. */
committed: boolean,
/** The resulting data snapshot. */
snapshot: DataSnapshot);
/** Returns a JSON-serializable representation of this object. */
toJSON(): object;
}
declare const enum TransactionStatus {
RUN = 0,
SENT = 1,
COMPLETED = 2,
SENT_NEEDS_ABORT = 3,
NEEDS_ABORT = 4
}
/**
* A light-weight tree, traversable by path. Nodes can have both values and children.
* Nodes are not enumerated (by forEachChild) unless they have a value or non-empty
* children.
*/
declare class Tree<T> {
readonly name: string;
readonly parent: Tree<T> | null;
node: TreeNode<T>;
/**
* @param name - Optional name of the node.
* @param parent - Optional parent node.
* @param node - Optional node to wrap.
*/
constructor(name?: string, parent?: Tree<T> | null, node?: TreeNode<T>);
}
/**
* Node in a Tree.
*/
declare interface TreeNode<T> {
children: Record<string, TreeNode<T>>;
childCount: number;
value?: T;
}
/** A callback that can invoked to remove a listener. */
export declare type Unsubscribe = () => void;
/**
* Writes multiple values to the Database at once.
*
* The `values` argument contains multiple property-value pairs that will be
* written to the Database together. Each child property can either be a simple
* property (for example, "name") or a relative path (for example,
* "name/first") from the current location to the data to update.
*
* As opposed to the `set()` method, `update()` can be use to selectively update
* only the referenced properties at the current location (instead of replacing
* all the child properties at the current location).
*
* The effect of the write will be visible immediately, and the corresponding
* events ('value', 'child_added', etc.) will be triggered. Synchronization of
* the data to the Firebase servers will also be started, and the returned
* Promise will resolve when complete. If provided, the `onComplete` callback
* will be called asynchronously after synchronization has finished.
*
* A single `update()` will generate a single "value" event at the location
* where the `update()` was performed, regardless of how many children were
* modified.
*
* Note that modifying data with `update()` will cancel any pending
* transactions at that location, so extreme care should be taken if mixing
* `update()` and `transaction()` to modify the same data.
*
* Passing `null` to `update()` will remove the data at this location.
*
* See
* {@link https://firebase.googleblog.com/2015/09/introducing-multi-location-updates-and_86.html | Introducing multi-location updates and more}.
*
* @param ref - The location to write to.
* @param values - Object containing multiple values.
* @returns Resolves when update on server is complete.
*/
export declare function update(ref: DatabaseReference, values: object): Promise<void>;
/**
* A user callback. Callbacks issues from the Legacy SDK maintain references
* to the original user-issued callbacks, which allows equality
* comparison by reference even though this callbacks are wrapped before
* they can be passed to the firebase@exp SDK.
*
* @internal
*/
export declare interface _UserCallback {
(dataSnapshot: DataSnapshot, previousChildName?: string | null): unknown;
userCallback?: unknown;
context?: object | null;
}
/**
* @internal
*/
export declare const _validatePathString: (fnName: string, argumentName: string, pathString: string, optional: boolean) => void;
/**
* @internal
*/
export declare const _validateWritablePath: (fnName: string, path: Path) => void;
/**
* A view represents a specific location and query that has 1 or more event registrations.
*
* It does several things:
* - Maintains the list of event registrations for this location/query.
* - Maintains a cache of the data visible for this location/query.
* - Applies new operations (via applyOperation), updates the cache, and based on the event
* registrations returns the set of events to be raised.
*/
declare class View {
private query_;
processor_: ViewProcessor;
viewCache_: ViewCache;
eventRegistrations_: EventRegistration[];
eventGenerator_: EventGenerator;
constructor(query_: QueryContext, initialViewCache: ViewCache);
get query(): QueryContext;
}
/**
* Stores the data we have cached for a view.
*
* serverSnap is the cached server data, eventSnap is the cached event data (server data plus any local writes).
*/
declare interface ViewCache {
readonly eventCache: CacheNode;
readonly serverCache: CacheNode;
}
declare interface ViewProcessor {
readonly filter: NodeFilter_2;
}
/**
* Defines a single user-initiated write operation. May be the result of a set(), transaction(), or update() call. In
* the case of a set() or transaction, snap wil be non-null. In the case of an update(), children will be non-null.
*/
declare interface WriteRecord {
writeId: number;
path: Path;
snap?: Node_2 | null;
children?: {
[k: string]: Node_2;
} | null;
visible: boolean;
}
/**
* WriteTree tracks all pending user-initiated writes and has methods to calculate the result of merging them
* with underlying server data (to create "event cache" data). Pending writes are added with addOverwrite()
* and addMerge(), and removed with removeWrite().
*/
declare interface WriteTree {
/**
* A tree tracking the result of applying all visible writes. This does not include transactions with
* applyLocally=false or writes that are completely shadowed by other writes.
*/
visibleWrites: CompoundWrite;
/**
* A list of all pending writes, regardless of visibility and shadowed-ness. Used to calculate arbitrary
* sets of the changed data, such as hidden writes (from transactions) or changes with certain writes excluded (also
* used by transactions).
*/
allWrites: WriteRecord[];
lastWriteId: number;
}
export { }