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websocket.d.ts
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// Type definitions for websocket
// Project: https://github.com/theturtle32/WebSocket-Node
// Definitions by: Paul Loyd <https://github.com/loyd>
// Definitions: https://github.com/DefinitelyTyped/DefinitelyTyped
/// <reference path="../node/node.d.ts" />
declare module "websocket" {
import events = require('events');
import http = require('http');
import net = require('net');
import url = require('url');
export interface IStringified {
toString: (...args: any[]) => string;
}
export interface IConfig {
/**
* The maximum allowed received frame size in bytes.
* Single frame messages will also be limited to this maximum.
*/
maxReceivedFrameSize?: number;
/** The maximum allowed aggregate message size (for fragmented messages) in bytes */
maxReceivedMessageSize?: number;
/**
* Whether or not to fragment outgoing messages. If true, messages will be
* automatically fragmented into chunks of up to `fragmentationThreshold` bytes.
* @default true
*/
fragmentOutgoingMessages?: boolean;
/**
* The maximum size of a frame in bytes before it is automatically fragmented.
* @default 16KiB
*/
fragmentationThreshold?: number;
/**
* If true, fragmented messages will be automatically assembled and the full
* message will be emitted via a `message` event. If false, each frame will be
* emitted on the `connection` object via a `frame` event and the application
* will be responsible for aggregating multiple fragmented frames. Single-frame
* messages will emit a `message` event in addition to the `frame` event.
* @default true
*/
assembleFragments?: boolean;
/**
* The number of milliseconds to wait after sending a close frame for an
* `acknowledgement` to come back before giving up and just closing the socket.
* @default 5000
*/
closeTimeout?: number;
}
export interface IServerConfig extends IConfig {
/** The http server instance to attach to */
httpServer: http.Server;
/**
* The maximum allowed received frame size in bytes.
* Single frame messages will also be limited to this maximum.
* @default 64KiB
*/
maxReceivedFrameSize?: number;
/**
* The maximum allowed aggregate message size (for fragmented messages) in bytes.
* @default 1MiB
*/
maxReceivedMessageSize?: number;
/**
* If true, the server will automatically send a ping to all clients every
* `keepaliveInterval` milliseconds. Each client has an independent `keepalive`
* timer, which is reset when any data is received from that client.
* @default true
*/
keepalive?: boolean;
/**
* The interval in milliseconds to send `keepalive` pings to connected clients.
* @default 20000
*/
keepaliveInterval?: number;
/**
* If true, the server will consider any connection that has not received any
* data within the amount of time specified by `keepaliveGracePeriod` after a
* `keepalive` ping has been sent. Ignored if `keepalive` is false.
* @default true
*/
dropConnectionOnKeepaliveTimeout?: boolean;
/**
* The amount of time to wait after sending a `keepalive` ping before closing
* the connection if the connected peer does not respond. Ignored if `keepalive`
* or `dropConnectionOnKeepaliveTimeout` are false. The grace period timer is
* reset when any data is received from the client.
* @default 10000
*/
keepaliveGracePeriod?: number;
/**
* If this is true, websocket connections will be accepted regardless of the path
* and protocol specified by the client. The protocol accepted will be the first
* that was requested by the client.
* @default false
*/
autoAcceptConnections?: boolean;
/**
* The Nagle Algorithm makes more efficient use of network resources by introducing a
* small delay before sending small packets so that multiple messages can be batched
* together before going onto the wire. This however comes at the cost of latency.
* @default true
*/
disableNagleAlgorithm?: boolean;
}
export class server extends events.EventEmitter {
config: IServerConfig;
connections: connection[];
constructor(serverConfig?: IServerConfig);
/** Send binary message for each connection */
broadcast(data: Buffer): void;
/** Send UTF-8 message for each connection */
broadcast(data: IStringified): void;
/** Send binary message for each connection */
broadcastBytes(data: Buffer): void;
/** Send UTF-8 message for each connection */
broadcastUTF(data: IStringified): void;
/** Attach the `server` instance to a Node http.Server instance */
mount(serverConfig: IServerConfig): void;
/**
* Detach the `server` instance from the Node http.Server instance.
* All existing connections are left alone and will not be affected,
* but no new WebSocket connections will be accepted.
*/
unmount(): void;
/** Close all open WebSocket connections */
closeAllConnections(): void;
/** Close all open WebSocket connections and unmount the server */
shutDown(): void;
// Events
on(event: string, listener: () => void): this;
on(event: 'request', cb: (request: request) => void): this;
on(event: 'connect', cb: (connection: connection) => void): this;
on(event: 'close', cb: (connection: connection, reason: number, desc: string) => void): this;
addListener(event: string, listener: () => void): this;
addListener(event: 'request', cb: (request: request) => void): this;
addListener(event: 'connect', cb: (connection: connection) => void): this;
addListener(event: 'close', cb: (connection: connection, reason: number, desc: string) => void): this;
}
export interface ICookie {
name: string;
value: string;
path?: string;
domain?: string;
expires?: Date;
maxage?: number;
secure?: boolean;
httponly?: boolean;
}
export interface IExtension {
name: string;
value: string;
}
export class request extends events.EventEmitter {
/** A reference to the original Node HTTP request object */
httpRequest: http.ClientRequest;
/** This will include the port number if a non-standard port is used */
host: string;
/** A string containing the path that was requested by the client */
resource: string;
/** `Sec-WebSocket-Key` */
key: string;
/** Parsed resource, including the query string parameters */
resourceURL: url.Url;
/**
* Client's IP. If an `X-Forwarded-For` header is present, the value will be taken
* from that header to facilitate WebSocket servers that live behind a reverse-proxy
*/
remoteAddress: string;
/**
* If the client is a web browser, origin will be a string containing the URL
* of the page containing the script that opened the connection.
* If the client is not a web browser, origin may be `null` or "*".
*/
origin: string;
/** The version of the WebSocket protocol requested by the client */
webSocketVersion: number;
/** An array containing a list of extensions requested by the client */
requestedExtensions: any[];
cookies: ICookie[];
socket: net.Socket;
/**
* List of strings that indicate the subprotocols the client would like to speak.
* The server should select the best one that it can support from the list and
* pass it to the `accept` function when accepting the connection.
* Note that all the strings in the `requestedProtocols` array will have been
* converted to lower case.
*/
requestedProtocols: string[];
protocolFullCaseMap: {[key: string]: string};
constructor(socket: net.Socket, httpRequest: http.ClientRequest, config: IServerConfig);
/**
* After inspecting the `request` properties, call this function on the
* request object to accept the connection. If you don't have a particular subprotocol
* you wish to speak, you may pass `null` for the `acceptedProtocol` parameter.
*
* @param [acceptedProtocol] case-insensitive value that was requested by the client
*/
accept(acceptedProtocol?: string, allowedOrigin?: string, cookies?: ICookie[]): connection;
/**
* Reject connection.
* You may optionally pass in an HTTP Status code (such as 404) and a textual
* description that will be sent to the client in the form of an
* `X-WebSocket-Reject-Reason` header.
* Optional extra http headers can be added via Object key/values on extraHeaders.
*/
reject(httpStatus?: number, reason?: string, extraHeaders?: Object): void;
// Events
on(event: string, listener: () => void): this;
on(event: 'requestAccepted', cb: (connection: connection) => void): this;
on(event: 'requestRejected', cb: () => void): this;
addListener(event: string, listener: () => void): this;
addListener(event: 'requestAccepted', cb: (connection: connection) => void): this;
addListener(event: 'requestRejected', cb: () => void): this;
}
export interface IMessage {
type: string;
utf8Data?: string;
binaryData?: Buffer;
}
export interface IBufferList extends events.EventEmitter {
encoding: string;
length: number;
write(buf: Buffer): boolean;
end(buf: Buffer): void;
/**
* For each buffer, perform some action.
* If fn's result is a true value, cut out early.
*/
forEach(fn: (buf: Buffer) => boolean): void;
/** Create a single buffer out of all the chunks */
join(start: number, end: number): Buffer;
/** Join all the chunks to existing buffer */
joinInto(buf: Buffer, offset: number, start: number, end: number): Buffer;
/**
* Advance the buffer stream by `n` bytes.
* If `n` the aggregate advance offset passes the end of the buffer list,
* operations such as `take` will return empty strings until enough data is pushed.
*/
advance(n: number): IBufferList;
/**
* Take `n` bytes from the start of the buffers.
* If there are less than `n` bytes in all the buffers or `n` is undefined,
* returns the entire concatenated buffer string.
*/
take(n: number, encoding?: string): any;
take(encoding?: string): any;
// Events
on(event: string, listener: () => void): this;
on(event: 'advance', cb: (n: number) => void): this;
on(event: 'write', cb: (buf: Buffer) => void): this;
addListener(event: string, listener: () => void): this;
addListener(event: 'advance', cb: (n: number) => void): this;
addListener(event: 'write', cb: (buf: Buffer) => void): this;
}
class connection extends events.EventEmitter {
static CLOSE_REASON_NORMAL: number;
static CLOSE_REASON_GOING_AWAY: number;
static CLOSE_REASON_PROTOCOL_ERROR: number;
static CLOSE_REASON_UNPROCESSABLE_INPUT: number;
static CLOSE_REASON_RESERVED: number;
static CLOSE_REASON_NOT_PROVIDED: number;
static CLOSE_REASON_ABNORMAL: number;
static CLOSE_REASON_INVALID_DATA: number;
static CLOSE_REASON_POLICY_VIOLATION: number;
static CLOSE_REASON_MESSAGE_TOO_BIG: number;
static CLOSE_REASON_EXTENSION_REQUIRED: number;
/**
* After the connection is closed, contains a textual description of the reason for
* the connection closure, or `null` if the connection is still open.
*/
closeDescription: string;
/**
* After the connection is closed, contains the numeric close reason status code,
* or `-1` if the connection is still open.
*/
closeReasonCode: number;
/**
* The subprotocol that was chosen to be spoken on this connection. This field
* will have been converted to lower case.
*/
protocol: string;
config: IConfig;
socket: net.Socket;
maskOutgoingPackets: boolean;
maskBytes: Buffer;
frameHeader: Buffer;
bufferList: IBufferList;
currentFrame: frame;
fragmentationSize: number;
frameQueue: frame[];
state: string;
waitingForCloseResponse: boolean;
closeTimeout: number;
assembleFragments: number;
maxReceivedMessageSize: number;
outputPaused: boolean;
bytesWaitingToFlush: number;
socketHadError: boolean;
/** An array of extensions that were negotiated for this connection */
extensions: IExtension[];
/**
* The IP address of the remote peer as a string. In the case of a server,
* the `X-Forwarded-For` header will be respected and preferred for the purposes
* of populating this field. If you need to get to the actual remote IP address,
* `socket.remoteAddress` will provide it.
*/
remoteAddress: string;
/** The version of the WebSocket protocol requested by the client */
webSocketVersion: number;
/** Whether or not the connection is still connected. Read-only */
connected: boolean;
constructor(socket: net.Socket, extensions: IExtension[], protocol: string,
maskOutgoingPackets: boolean, config: IConfig);
/**
* Close the connection. A close frame will be sent to the remote peer indicating
* that we wish to close the connection, and we will then wait for up to
* `config.closeTimeout` milliseconds for an acknowledgment from the remote peer
* before terminating the underlying socket connection.
*/
close(): void;
/**
* Send a close frame to the remote peer and immediately close the socket without
* waiting for a response. This should generally be used only in error conditions.
*/
drop(reasonCode?: number, description?: string): void;
/**
* Immediately sends the specified string as a UTF-8 WebSocket message to the remote
* peer. If `config.fragmentOutgoingMessages` is true the message may be sent as
* multiple fragments if it exceeds `config.fragmentationThreshold` bytes.
*/
sendUTF(data: IStringified): void;
/**
* Immediately sends the specified Node Buffer object as a Binary WebSocket message
* to the remote peer. If config.fragmentOutgoingMessages is true the message may be
* sent as multiple fragments if it exceeds config.fragmentationThreshold bytes.
*/
sendBytes(buffer: Buffer): void;
/** Auto-detect the data type and send UTF-8 or Binary message */
send(data: Buffer): void;
send(data: IStringified): void;
/** Sends a ping frame. Ping frames must not exceed 125 bytes in length. */
ping(data: Buffer): void;
ping(data: IStringified): void;
/**
* Sends a pong frame. Pong frames may be sent unsolicited and such pong frames will
* trigger no action on the receiving peer. Pong frames sent in response to a ping
* frame must mirror the payload data of the ping frame exactly.
* The `connection` object handles this internally for you, so there should
* be no need to use this method to respond to pings.
* Pong frames must not exceed 125 bytes in length.
*/
pong(buffer: Buffer): void;
/**
* Serializes a `frame` object into binary data and immediately sends it to
* the remote peer. This is an advanced function, requiring you to manually compose
* your own `frame`. You should probably use sendUTF or sendBytes instead.
*/
sendFrame(frame: frame): void;
/** Set or reset the `keepalive` timer when data is received */
setKeepaliveTimer(): void;
setGracePeriodTimer(): void;
setCloseTimer(): void;
clearCloseTimer(): void;
processFrame(frame: frame): void;
fragmentAndSend(frame: frame, cb?: (err: Error) => void): void;
sendCloseFrame(reasonCode: number, reasonText: string, force: boolean): void;
sendCloseFrame(): void;
sendFrame(frame: frame, force: boolean, cb?: (msg: string) => void): void;
sendFrame(frame: frame, cb?: (msg: string) => void): void;
// Events
on(event: string, listener: () => void): this;
on(event: 'message', cb: (data: IMessage) => void): this;
on(event: 'frame', cb: (frame: frame) => void): this;
on(event: 'close', cb: (code: number, desc: string) => void): this;
on(event: 'error', cb: (err: Error) => void): this;
addListener(event: string, listener: () => void): this;
addListener(event: 'message', cb: (data: IMessage) => void): this;
addListener(event: 'frame', cb: (frame: frame) => void): this;
addListener(event: 'close', cb: (code: number, desc: string) => void): this;
addListener(event: 'error', cb: (err: Error) => void): this;
}
class frame {
/** Whether or not this is last frame in a fragmentation sequence */
fin: boolean;
/**
* Represents the RSV1 field in the framing. Setting this to true will result in
* a Protocol Error on the receiving peer.
*/
rsv1: boolean;
/**
* Represents the RSV1 field in the framing. Setting this to true will result in
* a Protocol Error on the receiving peer.
*/
rsv2: boolean;
/**
* Represents the RSV1 field in the framing. Setting this to true will result in
* a Protocol Error on the receiving peer.
*/
rsv3: boolean;
/**
* Whether or not this frame is (or should be) masked. For outgoing frames, when
* connected as a client, this flag is automatically forced to true by `connection`.
* Outgoing frames sent from the server-side of a connection are not masked.
*/
mask: number;
/**
* Identifies which kind of frame this is.
*
* Hex - Dec - Description
* 0x00 - 0 - Continuation
* 0x01 - 1 - Text Frame
* 0x02 - 2 - Binary Frame
* 0x08 - 8 - Close Frame
* 0x09 - 9 - Ping Frame
* 0x0A - 10 - Pong Frame
*/
opcode: number;
/**
* Identifies the length of the payload data on a received frame.
* When sending a frame, will be automatically calculated from `binaryPayload` object.
*/
length: number;
/**
* The binary payload data.
* Even text frames are sent with a Buffer providing the binary payload data.
*/
binaryPayload: Buffer;
maskBytes: Buffer;
frameHeader: Buffer;
config: IConfig;
maxReceivedFrameSize: number;
protocolError: boolean;
frameTooLarge: boolean;
invalidCloseFrameLength: boolean;
closeStatus: number;
addData(bufferList: IBufferList): boolean;
throwAwayPayload(bufferList: IBufferList): boolean;
toBuffer(nullMask: boolean): Buffer;
}
export interface IClientConfig extends IConfig {
/**
* Which version of the WebSocket protocol to use when making the connection.
* Currently supported values are 8 and 13. This option will be removed once the
* protocol is finalized by the IETF It is only available to ease the transition
* through the intermediate draft protocol versions. The only thing this affects
* the name of the Origin header.
* @default 13
*/
webSocketVersion?: number;
/**
* The maximum allowed received frame size in bytes.
* Single frame messages will also be limited to this maximum.
* @default 1MiB
*/
maxReceivedFrameSize?: number;
/**
* The maximum allowed aggregate message size (for fragmented messages) in bytes.
* @default 8MiB
*/
maxReceivedMessageSize?: number;
}
class client extends events.EventEmitter {
protocols: string[];
origin: string;
url: url.Url;
secure: boolean;
socket: net.Socket;
response: http.ClientResponse;
constructor(clientConfig?: IClientConfig);
/**
* Establish a connection. The remote server will select the best subprotocol that
* it supports and send that back when establishing the connection.
*
* @param [origin] can be used in user-agent scenarios to identify the page containing
* any scripting content that caused the connection to be requested.
* @param requestUrl should be a standard websocket url
*/
connect(requestUrl: url.Url, protocols?: string[], origin?: string, headers?: any[]): void;
connect(requestUrl: string, protocols?: string[], origin?: string, headers?: any[]): void;
connect(requestUrl: url.Url, protocols?: string, origin?: string, headers?: any[]): void;
connect(requestUrl: string, protocols?: string, origin?: string, headers?: any[]): void;
// Events
on(event: string, listener: () => void): this;
on(event: 'connect', cb: (connection: connection) => void): this;
on(event: 'connectFailed', cb: (err: Error) => void): this;
addListener(event: string, listener: () => void): this;
addListener(event: 'connect', cb: (connection: connection) => void): this;
addListener(event: 'connectFailed', cb: (err: Error) => void): this;
}
class routerRequest extends events.EventEmitter {
/** A reference to the original Node HTTP request object */
httpRequest: http.ClientRequest;
/** A string containing the path that was requested by the client */
resource: string;
/** Parsed resource, including the query string parameters */
resourceURL: url.Url;
/**
* Client's IP. If an `X-Forwarded-For` header is present, the value will be taken
* from that header to facilitate WebSocket servers that live behind a reverse-proxy
*/
remoteAddress: string;
/**
* If the client is a web browser, origin will be a string containing the URL
* of the page containing the script that opened the connection.
* If the client is not a web browser, origin may be `null` or "*".
*/
origin: string;
/** The version of the WebSocket protocol requested by the client */
webSocketVersion: number;
/** An array containing a list of extensions requested by the client */
requestedExtensions: any[];
cookies: ICookie[];
constructor(webSocketRequest: request, resolvedProtocol: string);
/**
* After inspecting the `request` properties, call this function on the
* request object to accept the connection. If you don't have a particular subprotocol
* you wish to speak, you may pass `null` for the `acceptedProtocol` parameter.
*
* @param [acceptedProtocol] case-insensitive value that was requested by the client
*/
accept(acceptedProtocol?: string, allowedOrigin?: string, cookies?: ICookie[]): connection;
/**
* Reject connection.
* You may optionally pass in an HTTP Status code (such as 404) and a textual
* description that will be sent to the client in the form of an
* `X-WebSocket-Reject-Reason` header.
*/
reject(httpStatus?: number, reason?: string): void;
// Events
on(event: string, listener: () => void): this;
on(event: 'requestAccepted', cb: (connection: connection) => void): this;
on(event: 'requestRejected', cb: () => void): this;
addListener(event: string, listener: () => void): this;
addListener(event: 'requestAccepted', cb: (connection: connection) => void): this;
addListener(event: 'requestRejected', cb: () => void): this;
}
interface IRouterConfig {
/*
* The WebSocketServer instance to attach to.
*/
server: server
}
class router extends events.EventEmitter {
constructor(config?: IRouterConfig);
/** Attach to WebSocket server */
attachServer(server: server): void;
/** Detach from WebSocket server */
detachServer(): void;
mount(path: string, cb: (request: routerRequest) => void): void;
mount(path: string, protocol: string, cb: (request: routerRequest) => void): void;
mount(path: RegExp, cb: (request: routerRequest) => void): void;
mount(path: RegExp, protocol: string, cb: (request: routerRequest) => void): void;
unmount(path: string, protocol?: string): void;
unmount(path: RegExp, protocol?: string): void;
}
export var version: string;
export var constants: {
DEBUG: boolean;
};
}