sdk/lib/_http/websocket.dart - sdk.git - Git at Google

 // Copyright (c) 2013, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 part of dart._http;

 /**
  * WebSocket status codes used when closing a WebSocket connection.
  */
 abstract class WebSocketStatus {
   static const int normalClosure = 1000;
   static const int goingAway = 1001;
   static const int protocolError = 1002;
   static const int unsupportedData = 1003;
   static const int reserved1004 = 1004;
   static const int noStatusReceived = 1005;
   static const int abnormalClosure = 1006;
   static const int invalidFramePayloadData = 1007;
   static const int policyViolation = 1008;
   static const int messageTooBig = 1009;
   static const int missingMandatoryExtension = 1010;
   static const int internalServerError = 1011;
   static const int reserved1015 = 1015;

   @Deprecated("Use normalClosure instead")
   static const int NORMAL_CLOSURE = normalClosure;
   @Deprecated("Use goingAway instead")
   static const int GOING_AWAY = goingAway;
   @Deprecated("Use protocolError instead")
   static const int PROTOCOL_ERROR = protocolError;
   @Deprecated("Use unsupportedData instead")
   static const int UNSUPPORTED_DATA = unsupportedData;
   @Deprecated("Use reserved1004 instead")
   static const int RESERVED_1004 = reserved1004;
   @Deprecated("Use noStatusReceived instead")
   static const int NO_STATUS_RECEIVED = noStatusReceived;
   @Deprecated("Use abnormalClosure instead")
   static const int ABNORMAL_CLOSURE = abnormalClosure;
   @Deprecated("Use invalidFramePayloadData instead")
   static const int INVALID_FRAME_PAYLOAD_DATA = invalidFramePayloadData;
   @Deprecated("Use policyViolation instead")
   static const int POLICY_VIOLATION = policyViolation;
   @Deprecated("Use messageTooBig instead")
   static const int MESSAGE_TOO_BIG = messageTooBig;
   @Deprecated("Use missingMandatoryExtension instead")
   static const int MISSING_MANDATORY_EXTENSION = missingMandatoryExtension;
   @Deprecated("Use internalServerError instead")
   static const int INTERNAL_SERVER_ERROR = internalServerError;
   @Deprecated("Use reserved1015 instead")
   static const int RESERVED_1015 = reserved1015;
 }

 /// Options controlling compression in a [WebSocket].
 ///
 /// A [CompressionOptions] instance can be passed to [WebSocket.connect], or
 /// used in other similar places where [WebSocket] compression is configured.
 ///
 /// In most cases the default [compressionDefault] is sufficient, but in some
 /// situations, it might be desirable to use different compression parameters,
 /// for example to preserve memory on small devices.
 class CompressionOptions {
   /// Default [WebSocket] compression configuration.
   ///
   /// Enables compression with default window sizes and no reuse. This is the
   /// default options used by [WebSocket.connect] if no [CompressionOptions] is
   /// supplied.
   ///
   /// * `clientNoContextTakeover`: false
   /// * `serverNoContextTakeover`: false
   /// * `clientMaxWindowBits`: null (default maximal window size of 15 bits)
   /// * `serverMaxWindowBits`: null (default maximal window size of 15 bits)
   static const CompressionOptions compressionDefault =
       const CompressionOptions();
   @Deprecated("Use compressionDefault instead")
   static const CompressionOptions DEFAULT = compressionDefault;

   /// No-compression configuration.
   ///
   /// Disables compression when used as compression configuration for a
   /// [WebSocket].
   static const CompressionOptions compressionOff =
       const CompressionOptions(enabled: false);
   @Deprecated("Use compressionOff instead")
   static const CompressionOptions OFF = compressionOff;

   /// Whether the client will reuse its compression instances.
   final bool clientNoContextTakeover;

   /// Whether the server will reuse its compression instances.
   final bool serverNoContextTakeover;

   /// The maximal window size bit count requested by the client.
   ///
   /// The windows size for the compression is always a power of two, so the
   /// number of bits precisely determines the window size.
   ///
   /// If set to `null`, the client has no preference, and the compression can
   /// use up to its default maximum window size of 15 bits depending on the
   /// server's preference.
   final int? clientMaxWindowBits;

   /// The maximal window size bit count requested by the server.
   ///
   /// The windows size for the compression is always a power of two, so the
   /// number of bits precisely determines the window size.
   ///
   /// If set to `null`, the server has no preference, and the compression can
   /// use up to its default maximum window size of 15 bits depending on the
   /// client's preference.
   final int? serverMaxWindowBits;

   /// Whether WebSocket compression is enabled.
   ///
   /// If not enabled, the remaining fields have no effect, and the
   /// [compressionOff] instance can, and should, be reused instead of creating a
   /// new instance with compression disabled.
   final bool enabled;

   const CompressionOptions(
       {this.clientNoContextTakeover = false,
       this.serverNoContextTakeover = false,
       this.clientMaxWindowBits,
       this.serverMaxWindowBits,
       this.enabled = true});

   /// Parses list of requested server headers to return server compression
   /// response headers.
   ///
   /// Uses [serverMaxWindowBits] value if set, otherwise will attempt to use
   /// value from headers. Defaults to [WebSocket.DEFAULT_WINDOW_BITS]. Returns a
   /// [_CompressionMaxWindowBits] object which contains the response headers and
   /// negotiated max window bits.
   _CompressionMaxWindowBits _createServerResponseHeader(
       HeaderValue? requested) {
     var info = new _CompressionMaxWindowBits("", 0);

     String? part = requested?.parameters[_serverMaxWindowBits];
     if (part != null) {
       if (part.length >= 2 && part.startsWith('0')) {
         throw new ArgumentError("Illegal 0 padding on value.");
       } else {
         int mwb = serverMaxWindowBits ??
             int.tryParse(part) ??
             _WebSocketImpl.DEFAULT_WINDOW_BITS;
         info.headerValue = "; server_max_window_bits=${mwb}";
         info.maxWindowBits = mwb;
       }
     } else {
       info.headerValue = "";
       info.maxWindowBits = _WebSocketImpl.DEFAULT_WINDOW_BITS;
     }
     return info;
   }

   /// Returns default values for client compression request headers.
   String _createClientRequestHeader(HeaderValue? requested, int size) {
     var info = "";

     // If responding to a valid request, specify size
     if (requested != null) {
       info = "; client_max_window_bits=$size";
     } else {
       // Client request. Specify default
       if (clientMaxWindowBits == null) {
         info = "; client_max_window_bits";
       } else {
         info = "; client_max_window_bits=$clientMaxWindowBits";
       }
       if (serverMaxWindowBits != null) {
         info += "; server_max_window_bits=$serverMaxWindowBits";
       }
     }

     return info;
   }

   /// Create a Compression Header.
   ///
   /// If [requested] is null or contains client request headers, returns Client
   /// compression request headers with default settings for
   /// `client_max_window_bits` header value.  If [requested] contains server
   /// response headers this method returns a Server compression response header
   /// negotiating the max window bits for both client and server as requested
   /// `server_max_window_bits` value.  This method returns a
   /// [_CompressionMaxWindowBits] object with the response headers and
   /// negotiated `maxWindowBits` value.
   _CompressionMaxWindowBits _createHeader([HeaderValue? requested]) {
     var info = new _CompressionMaxWindowBits("", 0);
     if (!enabled) {
       return info;
     }

     info.headerValue = _WebSocketImpl.PER_MESSAGE_DEFLATE;

     if (clientNoContextTakeover &&
         (requested == null ||
             (requested != null &&
                 requested.parameters.containsKey(_clientNoContextTakeover)))) {
       info.headerValue += "; client_no_context_takeover";
     }

     if (serverNoContextTakeover &&
         (requested == null ||
             (requested != null &&
                 requested.parameters.containsKey(_serverNoContextTakeover)))) {
       info.headerValue += "; server_no_context_takeover";
     }

     var headerList = _createServerResponseHeader(requested);
     info.headerValue += headerList.headerValue;
     info.maxWindowBits = headerList.maxWindowBits;

     info.headerValue +=
         _createClientRequestHeader(requested, info.maxWindowBits);

     return info;
   }
 }

 /**
  * The [WebSocketTransformer] provides the ability to upgrade a
  * [HttpRequest] to a [WebSocket] connection. It supports both
  * upgrading a single [HttpRequest] and upgrading a stream of
  * [HttpRequest]s.
  *
  * To upgrade a single [HttpRequest] use the static [upgrade] method.
  *
  *     HttpServer server;
  *     server.listen((request) {
  *       if (...) {
  *         WebSocketTransformer.upgrade(request).then((websocket) {
  *           ...
  *         });
  *       } else {
  *         // Do normal HTTP request processing.
  *       }
  *     });
  *
  * To transform a stream of [HttpRequest] events as it implements a
  * stream transformer that transforms a stream of HttpRequest into a
  * stream of WebSockets by upgrading each HttpRequest from the HTTP or
  * HTTPS server, to the WebSocket protocol.
  *
  *     server.transform(new WebSocketTransformer()).listen((webSocket) => ...);
  *
  * This transformer strives to implement WebSockets as specified by RFC6455.
  */
 abstract class WebSocketTransformer
     implements StreamTransformer<HttpRequest, WebSocket> {
   /**
    * Create a new [WebSocketTransformer].
    *
    * If [protocolSelector] is provided, [protocolSelector] will be called to
    * select what protocol to use, if any were provided by the client.
    * [protocolSelector] is should return either a [String] or a [Future]
    * completing with a [String]. The [String] must exist in the list of
    * protocols.
    *
    * If [compression] is provided, the [WebSocket] created will be configured
    * to negotiate with the specified [CompressionOptions]. If none is specified
    * then the [WebSocket] will be created with the default [CompressionOptions].
    */
   factory WebSocketTransformer(
       {/*String|Future<String>*/ protocolSelector(List<String> protocols)?,
       CompressionOptions compression = CompressionOptions.compressionDefault}) {
     return new _WebSocketTransformerImpl(protocolSelector, compression);
   }

   /**
    * Upgrades a [HttpRequest] to a [WebSocket] connection. If the
    * request is not a valid WebSocket upgrade request an HTTP response
    * with status code 500 will be returned. Otherwise the returned
    * future will complete with the [WebSocket] when the upgrade process
    * is complete.
    *
    * If [protocolSelector] is provided, [protocolSelector] will be called to
    * select what protocol to use, if any were provided by the client.
    * [protocolSelector] is should return either a [String] or a [Future]
    * completing with a [String]. The [String] must exist in the list of
    * protocols.
    *
    * If [compression] is provided, the [WebSocket] created will be configured
    * to negotiate with the specified [CompressionOptions]. If none is specified
    * then the [WebSocket] will be created with the default [CompressionOptions].
    */
   static Future<WebSocket> upgrade(HttpRequest request,
       {protocolSelector(List<String> protocols)?,
       CompressionOptions compression = CompressionOptions.compressionDefault}) {
     return _WebSocketTransformerImpl._upgrade(
         request, protocolSelector, compression);
   }

   /**
    * Checks whether the request is a valid WebSocket upgrade request.
    */
   static bool isUpgradeRequest(HttpRequest request) {
     return _WebSocketTransformerImpl._isUpgradeRequest(request);
   }
 }

 /**
  * A two-way HTTP communication object for client or server applications.
  *
  * The stream exposes the messages received. A text message will be of type
  * `String` and a binary message will be of type `List<int>`.
  */
 abstract class WebSocket
     implements
         Stream<dynamic /*String|List<int>*/ >,
         StreamSink<dynamic /*String|List<int>*/ > {
   /**
    * Possible states of the connection.
    */
   static const int connecting = 0;
   static const int open = 1;
   static const int closing = 2;
   static const int closed = 3;

   @Deprecated("Use connecting instead")
   static const int CONNECTING = connecting;
   @Deprecated("Use open instead")
   static const int OPEN = open;
   @Deprecated("Use closing instead")
   static const int CLOSING = closing;
   @Deprecated("Use closed instead")
   static const int CLOSED = closed;

   /**
    * The interval between ping signals.
    *
    * A ping message is sent every [pingInterval], starting at the first
    * [pingInterval] after a new value has been assigned or a pong message has
    * been received. If a ping message is not answered by a pong message from the
    * peer, the `WebSocket` is assumed disconnected and the connection is closed
    * with a [WebSocketStatus.goingAway] close code. When a ping signal is sent,
    * the pong message must be received within [pingInterval].
    *
    * There are never two outstanding pings at any given time, and the next ping
    * timer starts when the pong is received.
    *
    * Set the [pingInterval] to `null` to disable sending ping messages.
    *
    * The default value is `null`.
    */
   Duration? pingInterval;

   /**
    * Create a new WebSocket connection. The URL supplied in [url]
    * must use the scheme `ws` or `wss`.
    *
    * The [protocols] argument is specifying the subprotocols the
    * client is willing to speak.
    *
    * The [headers] argument is specifying additional HTTP headers for
    * setting up the connection. This would typically be the `Origin`
    * header and potentially cookies. The keys of the map are the header
    * fields and the values are either String or List<String>.
    *
    * If [headers] is provided, there are a number of headers
    * which are controlled by the WebSocket connection process. These
    * headers are:
    *
    *   - `connection`
    *   - `sec-websocket-key`
    *   - `sec-websocket-protocol`
    *   - `sec-websocket-version`
    *   - `upgrade`
    *
    * If any of these are passed in the `headers` map they will be ignored.
    *
    * If the `url` contains user information this will be passed as basic
    * authentication when setting up the connection.
    */
   static Future<WebSocket> connect(String url,
           {Iterable<String>? protocols,
           Map<String, dynamic>? headers,
           CompressionOptions compression =
               CompressionOptions.compressionDefault}) =>
       _WebSocketImpl.connect(url, protocols, headers, compression: compression);

   @Deprecated('This constructor will be removed in Dart 2.0. Use `implements`'
       ' instead of `extends` if implementing this abstract class.')
   WebSocket();

   /**
    * Creates a WebSocket from an already-upgraded socket.
    *
    * The initial WebSocket handshake must have occurred prior to this call. A
    * WebSocket client can automatically perform the handshake using
    * [WebSocket.connect], while a server can do so using
    * [WebSocketTransformer.upgrade]. To manually upgrade an [HttpRequest],
    * [HttpResponse.detachSocket] may be called.
    *
    * [protocol] should be the protocol negotiated by this handshake, if any.
    *
    * [serverSide] must be passed explicitly. If it's `false`, the WebSocket will
    * act as the client and mask the messages it sends. If it's `true`, it will
    * act as the server and will not mask its messages.
    *
    * If [compression] is provided, the [WebSocket] created will be configured
    * to negotiate with the specified [CompressionOptions]. If none is specified
    * then the [WebSocket] will be created with the default [CompressionOptions].
    */
   factory WebSocket.fromUpgradedSocket(Socket socket,
       {String? protocol,
       bool? serverSide,
       CompressionOptions compression = CompressionOptions.compressionDefault}) {
     if (serverSide == null) {
       throw new ArgumentError("The serverSide argument must be passed "
           "explicitly to WebSocket.fromUpgradedSocket.");
     }
     return new _WebSocketImpl._fromSocket(
         socket, protocol, compression, serverSide);
   }

   /**
    * Returns the current state of the connection.
    */
   int get readyState;

   /**
    * The extensions property is initially the empty string. After the
    * WebSocket connection is established this string reflects the
    * extensions used by the server.
    */
   String get extensions;

   /**
    * The protocol property is initially the empty string. After the
    * WebSocket connection is established the value is the subprotocol
    * selected by the server. If no subprotocol is negotiated the
    * value will remain [:null:].
    */
   String? get protocol;

   /**
    * The close code set when the WebSocket connection is closed. If
    * there is no close code available this property will be [:null:]
    */
   int? get closeCode;

   /**
    * The close reason set when the WebSocket connection is closed. If
    * there is no close reason available this property will be [:null:]
    */
   String? get closeReason;

   /**
    * Closes the WebSocket connection. Set the optional [code] and [reason]
    * arguments to send close information to the remote peer. If they are
    * omitted, the peer will see [WebSocketStatus.noStatusReceived] code
    * with no reason.
    */
   Future close([int? code, String? reason]);

   /**
    * Sends data on the WebSocket connection. The data in [data] must
    * be either a `String`, or a `List<int>` holding bytes.
    */
   void add(/*String|List<int>*/ data);

   /**
    * Sends data from a stream on WebSocket connection. Each data event from
    * [stream] will be send as a single WebSocket frame. The data from [stream]
    * must be either `String`s, or `List<int>`s holding bytes.
    */
   Future addStream(Stream stream);

   /**
    * Sends a text message with the text represented by [bytes].
    *
    * The [bytes] should be valid UTF-8 encoded Unicode characters. If they are
    * not, the receiving end will close the connection.
    */
   void addUtf8Text(List<int> bytes);

   /**
    * Gets the user agent used for WebSocket connections.
    */
   static String? get userAgent => _WebSocketImpl.userAgent;

   /**
    * Sets the user agent to use for WebSocket connections.
    */
   static set userAgent(String? userAgent) {
     _WebSocketImpl.userAgent = userAgent;
   }
 }

 class WebSocketException implements IOException {
   final String message;

   const WebSocketException([this.message = ""]);

   String toString() => "WebSocketException: $message";
 }
	// Copyright (c) 2013, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	part of dart._http;

	/**
	* WebSocket status codes used when closing a WebSocket connection.
	*/
	abstract class WebSocketStatus {
	static const int normalClosure = 1000;
	static const int goingAway = 1001;
	static const int protocolError = 1002;
	static const int unsupportedData = 1003;
	static const int reserved1004 = 1004;
	static const int noStatusReceived = 1005;
	static const int abnormalClosure = 1006;
	static const int invalidFramePayloadData = 1007;
	static const int policyViolation = 1008;
	static const int messageTooBig = 1009;
	static const int missingMandatoryExtension = 1010;
	static const int internalServerError = 1011;
	static const int reserved1015 = 1015;

	@Deprecated("Use normalClosure instead")
	static const int NORMAL_CLOSURE = normalClosure;
	@Deprecated("Use goingAway instead")
	static const int GOING_AWAY = goingAway;
	@Deprecated("Use protocolError instead")
	static const int PROTOCOL_ERROR = protocolError;
	@Deprecated("Use unsupportedData instead")
	static const int UNSUPPORTED_DATA = unsupportedData;
	@Deprecated("Use reserved1004 instead")
	static const int RESERVED_1004 = reserved1004;
	@Deprecated("Use noStatusReceived instead")
	static const int NO_STATUS_RECEIVED = noStatusReceived;
	@Deprecated("Use abnormalClosure instead")
	static const int ABNORMAL_CLOSURE = abnormalClosure;
	@Deprecated("Use invalidFramePayloadData instead")
	static const int INVALID_FRAME_PAYLOAD_DATA = invalidFramePayloadData;
	@Deprecated("Use policyViolation instead")
	static const int POLICY_VIOLATION = policyViolation;
	@Deprecated("Use messageTooBig instead")
	static const int MESSAGE_TOO_BIG = messageTooBig;
	@Deprecated("Use missingMandatoryExtension instead")
	static const int MISSING_MANDATORY_EXTENSION = missingMandatoryExtension;
	@Deprecated("Use internalServerError instead")
	static const int INTERNAL_SERVER_ERROR = internalServerError;
	@Deprecated("Use reserved1015 instead")
	static const int RESERVED_1015 = reserved1015;
	}

	/// Options controlling compression in a [WebSocket].
	///
	/// A [CompressionOptions] instance can be passed to [WebSocket.connect], or
	/// used in other similar places where [WebSocket] compression is configured.
	///
	/// In most cases the default [compressionDefault] is sufficient, but in some
	/// situations, it might be desirable to use different compression parameters,
	/// for example to preserve memory on small devices.
	class CompressionOptions {
	/// Default [WebSocket] compression configuration.
	///
	/// Enables compression with default window sizes and no reuse. This is the
	/// default options used by [WebSocket.connect] if no [CompressionOptions] is
	/// supplied.
	///
	/// * `clientNoContextTakeover`: false
	/// * `serverNoContextTakeover`: false
	/// * `clientMaxWindowBits`: null (default maximal window size of 15 bits)
	/// * `serverMaxWindowBits`: null (default maximal window size of 15 bits)
	static const CompressionOptions compressionDefault =
	const CompressionOptions();
	@Deprecated("Use compressionDefault instead")
	static const CompressionOptions DEFAULT = compressionDefault;

	/// No-compression configuration.
	///
	/// Disables compression when used as compression configuration for a
	/// [WebSocket].
	static const CompressionOptions compressionOff =
	const CompressionOptions(enabled: false);
	@Deprecated("Use compressionOff instead")
	static const CompressionOptions OFF = compressionOff;

	/// Whether the client will reuse its compression instances.
	final bool clientNoContextTakeover;

	/// Whether the server will reuse its compression instances.
	final bool serverNoContextTakeover;

	/// The maximal window size bit count requested by the client.
	///
	/// The windows size for the compression is always a power of two, so the
	/// number of bits precisely determines the window size.
	///
	/// If set to `null`, the client has no preference, and the compression can
	/// use up to its default maximum window size of 15 bits depending on the
	/// server's preference.
	final int? clientMaxWindowBits;

	/// The maximal window size bit count requested by the server.
	///
	/// The windows size for the compression is always a power of two, so the
	/// number of bits precisely determines the window size.
	///
	/// If set to `null`, the server has no preference, and the compression can
	/// use up to its default maximum window size of 15 bits depending on the
	/// client's preference.
	final int? serverMaxWindowBits;

	/// Whether WebSocket compression is enabled.
	///
	/// If not enabled, the remaining fields have no effect, and the
	/// [compressionOff] instance can, and should, be reused instead of creating a
	/// new instance with compression disabled.
	final bool enabled;

	const CompressionOptions(
	{this.clientNoContextTakeover = false,
	this.serverNoContextTakeover = false,
	this.clientMaxWindowBits,
	this.serverMaxWindowBits,
	this.enabled = true});

	/// Parses list of requested server headers to return server compression
	/// response headers.
	///
	/// Uses [serverMaxWindowBits] value if set, otherwise will attempt to use
	/// value from headers. Defaults to [WebSocket.DEFAULT_WINDOW_BITS]. Returns a
	/// [_CompressionMaxWindowBits] object which contains the response headers and
	/// negotiated max window bits.
	_CompressionMaxWindowBits _createServerResponseHeader(
	HeaderValue? requested) {
	var info = new _CompressionMaxWindowBits("", 0);

	String? part = requested?.parameters[_serverMaxWindowBits];
	if (part != null) {
	if (part.length >= 2 && part.startsWith('0')) {
	throw new ArgumentError("Illegal 0 padding on value.");
	} else {
	int mwb = serverMaxWindowBits ??
	int.tryParse(part) ??
	_WebSocketImpl.DEFAULT_WINDOW_BITS;
	info.headerValue = "; server_max_window_bits=${mwb}";
	info.maxWindowBits = mwb;
	}
	} else {
	info.headerValue = "";
	info.maxWindowBits = _WebSocketImpl.DEFAULT_WINDOW_BITS;
	}
	return info;
	}

	/// Returns default values for client compression request headers.
	String _createClientRequestHeader(HeaderValue? requested, int size) {
	var info = "";

	// If responding to a valid request, specify size
	if (requested != null) {
	info = "; client_max_window_bits=$size";
	} else {
	// Client request. Specify default
	if (clientMaxWindowBits == null) {
	info = "; client_max_window_bits";
	} else {
	info = "; client_max_window_bits=$clientMaxWindowBits";
	}
	if (serverMaxWindowBits != null) {
	info += "; server_max_window_bits=$serverMaxWindowBits";
	}
	}

	return info;
	}

	/// Create a Compression Header.
	///
	/// If [requested] is null or contains client request headers, returns Client
	/// compression request headers with default settings for
	/// `client_max_window_bits` header value. If [requested] contains server
	/// response headers this method returns a Server compression response header
	/// negotiating the max window bits for both client and server as requested
	/// `server_max_window_bits` value. This method returns a
	/// [_CompressionMaxWindowBits] object with the response headers and
	/// negotiated `maxWindowBits` value.
	_CompressionMaxWindowBits _createHeader([HeaderValue? requested]) {
	var info = new _CompressionMaxWindowBits("", 0);
	if (!enabled) {
	return info;
	}

	info.headerValue = _WebSocketImpl.PER_MESSAGE_DEFLATE;

	if (clientNoContextTakeover &&
	(requested == null \|\|
	(requested != null &&
	requested.parameters.containsKey(_clientNoContextTakeover)))) {
	info.headerValue += "; client_no_context_takeover";
	}

	if (serverNoContextTakeover &&
	(requested == null \|\|
	(requested != null &&
	requested.parameters.containsKey(_serverNoContextTakeover)))) {
	info.headerValue += "; server_no_context_takeover";
	}

	var headerList = _createServerResponseHeader(requested);
	info.headerValue += headerList.headerValue;
	info.maxWindowBits = headerList.maxWindowBits;

	info.headerValue +=
	_createClientRequestHeader(requested, info.maxWindowBits);

	return info;
	}
	}

	/**
	* The [WebSocketTransformer] provides the ability to upgrade a
	* [HttpRequest] to a [WebSocket] connection. It supports both
	* upgrading a single [HttpRequest] and upgrading a stream of
	* [HttpRequest]s.
	*
	* To upgrade a single [HttpRequest] use the static [upgrade] method.
	*
	* HttpServer server;
	* server.listen((request) {
	* if (...) {
	* WebSocketTransformer.upgrade(request).then((websocket) {
	* ...
	* });
	* } else {
	* // Do normal HTTP request processing.
	* }
	* });
	*
	* To transform a stream of [HttpRequest] events as it implements a
	* stream transformer that transforms a stream of HttpRequest into a
	* stream of WebSockets by upgrading each HttpRequest from the HTTP or
	* HTTPS server, to the WebSocket protocol.
	*
	* server.transform(new WebSocketTransformer()).listen((webSocket) => ...);
	*
	* This transformer strives to implement WebSockets as specified by RFC6455.
	*/
	abstract class WebSocketTransformer
	implements StreamTransformer<HttpRequest, WebSocket> {
	/**
	* Create a new [WebSocketTransformer].
	*
	* If [protocolSelector] is provided, [protocolSelector] will be called to
	* select what protocol to use, if any were provided by the client.
	* [protocolSelector] is should return either a [String] or a [Future]
	* completing with a [String]. The [String] must exist in the list of
	* protocols.
	*
	* If [compression] is provided, the [WebSocket] created will be configured
	* to negotiate with the specified [CompressionOptions]. If none is specified
	* then the [WebSocket] will be created with the default [CompressionOptions].
	*/
	factory WebSocketTransformer(
	{/String\|Future<String>/ protocolSelector(List<String> protocols)?,
	CompressionOptions compression = CompressionOptions.compressionDefault}) {
	return new _WebSocketTransformerImpl(protocolSelector, compression);
	}

	/**
	* Upgrades a [HttpRequest] to a [WebSocket] connection. If the
	* request is not a valid WebSocket upgrade request an HTTP response
	* with status code 500 will be returned. Otherwise the returned
	* future will complete with the [WebSocket] when the upgrade process
	* is complete.
	*
	* If [protocolSelector] is provided, [protocolSelector] will be called to
	* select what protocol to use, if any were provided by the client.
	* [protocolSelector] is should return either a [String] or a [Future]
	* completing with a [String]. The [String] must exist in the list of
	* protocols.
	*
	* If [compression] is provided, the [WebSocket] created will be configured
	* to negotiate with the specified [CompressionOptions]. If none is specified
	* then the [WebSocket] will be created with the default [CompressionOptions].
	*/
	static Future<WebSocket> upgrade(HttpRequest request,
	{protocolSelector(List<String> protocols)?,
	CompressionOptions compression = CompressionOptions.compressionDefault}) {
	return _WebSocketTransformerImpl._upgrade(
	request, protocolSelector, compression);
	}

	/**
	* Checks whether the request is a valid WebSocket upgrade request.
	*/
	static bool isUpgradeRequest(HttpRequest request) {
	return _WebSocketTransformerImpl._isUpgradeRequest(request);
	}
	}

	/**
	* A two-way HTTP communication object for client or server applications.
	*
	* The stream exposes the messages received. A text message will be of type
	* `String` and a binary message will be of type `List<int>`.
	*/
	abstract class WebSocket
	implements
	Stream<dynamic /String\|List<int>/ >,
	StreamSink<dynamic /String\|List<int>/ > {
	/**
	* Possible states of the connection.
	*/
	static const int connecting = 0;
	static const int open = 1;
	static const int closing = 2;
	static const int closed = 3;

	@Deprecated("Use connecting instead")
	static const int CONNECTING = connecting;
	@Deprecated("Use open instead")
	static const int OPEN = open;
	@Deprecated("Use closing instead")
	static const int CLOSING = closing;
	@Deprecated("Use closed instead")
	static const int CLOSED = closed;

	/**
	* The interval between ping signals.
	*
	* A ping message is sent every [pingInterval], starting at the first
	* [pingInterval] after a new value has been assigned or a pong message has
	* been received. If a ping message is not answered by a pong message from the
	* peer, the `WebSocket` is assumed disconnected and the connection is closed
	* with a [WebSocketStatus.goingAway] close code. When a ping signal is sent,
	* the pong message must be received within [pingInterval].
	*
	* There are never two outstanding pings at any given time, and the next ping
	* timer starts when the pong is received.
	*
	* Set the [pingInterval] to `null` to disable sending ping messages.
	*
	* The default value is `null`.
	*/
	Duration? pingInterval;

	/**
	* Create a new WebSocket connection. The URL supplied in [url]
	* must use the scheme `ws` or `wss`.
	*
	* The [protocols] argument is specifying the subprotocols the
	* client is willing to speak.
	*
	* The [headers] argument is specifying additional HTTP headers for
	* setting up the connection. This would typically be the `Origin`
	* header and potentially cookies. The keys of the map are the header
	* fields and the values are either String or List<String>.
	*
	* If [headers] is provided, there are a number of headers
	* which are controlled by the WebSocket connection process. These
	* headers are:
	*
	* - `connection`
	* - `sec-websocket-key`
	* - `sec-websocket-protocol`
	* - `sec-websocket-version`
	* - `upgrade`
	*
	* If any of these are passed in the `headers` map they will be ignored.
	*
	* If the `url` contains user information this will be passed as basic
	* authentication when setting up the connection.
	*/
	static Future<WebSocket> connect(String url,
	{Iterable<String>? protocols,
	Map<String, dynamic>? headers,
	CompressionOptions compression =
	CompressionOptions.compressionDefault}) =>
	_WebSocketImpl.connect(url, protocols, headers, compression: compression);

	@Deprecated('This constructor will be removed in Dart 2.0. Use `implements`'
	' instead of `extends` if implementing this abstract class.')
	WebSocket();

	/**
	* Creates a WebSocket from an already-upgraded socket.
	*
	* The initial WebSocket handshake must have occurred prior to this call. A
	* WebSocket client can automatically perform the handshake using
	* [WebSocket.connect], while a server can do so using
	* [WebSocketTransformer.upgrade]. To manually upgrade an [HttpRequest],
	* [HttpResponse.detachSocket] may be called.
	*
	* [protocol] should be the protocol negotiated by this handshake, if any.
	*
	* [serverSide] must be passed explicitly. If it's `false`, the WebSocket will
	* act as the client and mask the messages it sends. If it's `true`, it will
	* act as the server and will not mask its messages.
	*
	* If [compression] is provided, the [WebSocket] created will be configured
	* to negotiate with the specified [CompressionOptions]. If none is specified
	* then the [WebSocket] will be created with the default [CompressionOptions].
	*/
	factory WebSocket.fromUpgradedSocket(Socket socket,
	{String? protocol,
	bool? serverSide,
	CompressionOptions compression = CompressionOptions.compressionDefault}) {
	if (serverSide == null) {
	throw new ArgumentError("The serverSide argument must be passed "
	"explicitly to WebSocket.fromUpgradedSocket.");
	}
	return new _WebSocketImpl._fromSocket(
	socket, protocol, compression, serverSide);
	}

	/**
	* Returns the current state of the connection.
	*/
	int get readyState;

	/**
	* The extensions property is initially the empty string. After the
	* WebSocket connection is established this string reflects the
	* extensions used by the server.
	*/
	String get extensions;

	/**
	* The protocol property is initially the empty string. After the
	* WebSocket connection is established the value is the subprotocol
	* selected by the server. If no subprotocol is negotiated the
	* value will remain [:null:].
	*/
	String? get protocol;

	/**
	* The close code set when the WebSocket connection is closed. If
	* there is no close code available this property will be [:null:]
	*/
	int? get closeCode;

	/**
	* The close reason set when the WebSocket connection is closed. If
	* there is no close reason available this property will be [:null:]
	*/
	String? get closeReason;

	/**
	* Closes the WebSocket connection. Set the optional [code] and [reason]
	* arguments to send close information to the remote peer. If they are
	* omitted, the peer will see [WebSocketStatus.noStatusReceived] code
	* with no reason.
	*/
	Future close([int? code, String? reason]);

	/**
	* Sends data on the WebSocket connection. The data in [data] must
	* be either a `String`, or a `List<int>` holding bytes.
	*/
	void add(/String\|List<int>/ data);

	/**
	* Sends data from a stream on WebSocket connection. Each data event from
	* [stream] will be send as a single WebSocket frame. The data from [stream]
	* must be either `String`s, or `List<int>`s holding bytes.
	*/
	Future addStream(Stream stream);

	/**
	* Sends a text message with the text represented by [bytes].
	*
	* The [bytes] should be valid UTF-8 encoded Unicode characters. If they are
	* not, the receiving end will close the connection.
	*/
	void addUtf8Text(List<int> bytes);

	/**
	* Gets the user agent used for WebSocket connections.
	*/
	static String? get userAgent => _WebSocketImpl.userAgent;

	/**
	* Sets the user agent to use for WebSocket connections.
	*/
	static set userAgent(String? userAgent) {
	_WebSocketImpl.userAgent = userAgent;
	}
	}

	class WebSocketException implements IOException {
	final String message;

	const WebSocketException([this.message = ""]);

	String toString() => "WebSocketException: $message";
	}