actions/bcr-pr-review-approver/node_modules/undici/lib/websocket/util.js - continuous-integration - Git at Google

 'use strict'

 const { kReadyState, kController, kResponse, kBinaryType, kWebSocketURL } = require('./symbols')
 const { states, opcodes } = require('./constants')
 const { MessageEvent, ErrorEvent } = require('./events')

 /* globals Blob */

 /**
  * @param {import('./websocket').WebSocket} ws
  */
 function isEstablished (ws) {
   // If the server's response is validated as provided for above, it is
   // said that _The WebSocket Connection is Established_ and that the
   // WebSocket Connection is in the OPEN state.
   return ws[kReadyState] === states.OPEN
 }

 /**
  * @param {import('./websocket').WebSocket} ws
  */
 function isClosing (ws) {
   // Upon either sending or receiving a Close control frame, it is said
   // that _The WebSocket Closing Handshake is Started_ and that the
   // WebSocket connection is in the CLOSING state.
   return ws[kReadyState] === states.CLOSING
 }

 /**
  * @param {import('./websocket').WebSocket} ws
  */
 function isClosed (ws) {
   return ws[kReadyState] === states.CLOSED
 }

 /**
  * @see https://dom.spec.whatwg.org/#concept-event-fire
  * @param {string} e
  * @param {EventTarget} target
  * @param {EventInit | undefined} eventInitDict
  */
 function fireEvent (e, target, eventConstructor = Event, eventInitDict) {
   // 1. If eventConstructor is not given, then let eventConstructor be Event.

   // 2. Let event be the result of creating an event given eventConstructor,
   //    in the relevant realm of target.
   // 3. Initialize event’s type attribute to e.
   const event = new eventConstructor(e, eventInitDict) // eslint-disable-line new-cap

   // 4. Initialize any other IDL attributes of event as described in the
   //    invocation of this algorithm.

   // 5. Return the result of dispatching event at target, with legacy target
   //    override flag set if set.
   target.dispatchEvent(event)
 }

 /**
  * @see https://websockets.spec.whatwg.org/#feedback-from-the-protocol
  * @param {import('./websocket').WebSocket} ws
  * @param {number} type Opcode
  * @param {Buffer} data application data
  */
 function websocketMessageReceived (ws, type, data) {
   // 1. If ready state is not OPEN (1), then return.
   if (ws[kReadyState] !== states.OPEN) {
     return
   }

   // 2. Let dataForEvent be determined by switching on type and binary type:
   let dataForEvent

   if (type === opcodes.TEXT) {
     // -> type indicates that the data is Text
     //      a new DOMString containing data
     try {
       dataForEvent = new TextDecoder('utf-8', { fatal: true }).decode(data)
     } catch {
       failWebsocketConnection(ws, 'Received invalid UTF-8 in text frame.')
       return
     }
   } else if (type === opcodes.BINARY) {
     if (ws[kBinaryType] === 'blob') {
       // -> type indicates that the data is Binary and binary type is "blob"
       //      a new Blob object, created in the relevant Realm of the WebSocket
       //      object, that represents data as its raw data
       dataForEvent = new Blob([data])
     } else {
       // -> type indicates that the data is Binary and binary type is "arraybuffer"
       //      a new ArrayBuffer object, created in the relevant Realm of the
       //      WebSocket object, whose contents are data
       dataForEvent = new Uint8Array(data).buffer
     }
   }

   // 3. Fire an event named message at the WebSocket object, using MessageEvent,
   //    with the origin attribute initialized to the serialization of the WebSocket
   //    object’s url's origin, and the data attribute initialized to dataForEvent.
   fireEvent('message', ws, MessageEvent, {
     origin: ws[kWebSocketURL].origin,
     data: dataForEvent
   })
 }

 /**
  * @see https://datatracker.ietf.org/doc/html/rfc6455
  * @see https://datatracker.ietf.org/doc/html/rfc2616
  * @see https://bugs.chromium.org/p/chromium/issues/detail?id=398407
  * @param {string} protocol
  */
 function isValidSubprotocol (protocol) {
   // If present, this value indicates one
   // or more comma-separated subprotocol the client wishes to speak,
   // ordered by preference.  The elements that comprise this value
   // MUST be non-empty strings with characters in the range U+0021 to
   // U+007E not including separator characters as defined in
   // [RFC2616] and MUST all be unique strings.
   if (protocol.length === 0) {
     return false
   }

   for (const char of protocol) {
     const code = char.charCodeAt(0)

     if (
       code < 0x21 ||
       code > 0x7E ||
       char === '(' ||
       char === ')' ||
       char === '<' ||
       char === '>' ||
       char === '@' ||
       char === ',' ||
       char === ';' ||
       char === ':' ||
       char === '\\' ||
       char === '"' ||
       char === '/' ||
       char === '[' ||
       char === ']' ||
       char === '?' ||
       char === '=' ||
       char === '{' ||
       char === '}' ||
       code === 32 || // SP
       code === 9 // HT
     ) {
       return false
     }
   }

   return true
 }

 /**
  * @see https://datatracker.ietf.org/doc/html/rfc6455#section-7-4
  * @param {number} code
  */
 function isValidStatusCode (code) {
   if (code >= 1000 && code < 1015) {
     return (
       code !== 1004 && // reserved
       code !== 1005 && // "MUST NOT be set as a status code"
       code !== 1006 // "MUST NOT be set as a status code"
     )
   }

   return code >= 3000 && code <= 4999
 }

 /**
  * @param {import('./websocket').WebSocket} ws
  * @param {string|undefined} reason
  */
 function failWebsocketConnection (ws, reason) {
   const { [kController]: controller, [kResponse]: response } = ws

   controller.abort()

   if (response?.socket && !response.socket.destroyed) {
     response.socket.destroy()
   }

   if (reason) {
     fireEvent('error', ws, ErrorEvent, {
       error: new Error(reason)
     })
   }
 }

 module.exports = {
   isEstablished,
   isClosing,
   isClosed,
   fireEvent,
   isValidSubprotocol,
   isValidStatusCode,
   failWebsocketConnection,
   websocketMessageReceived
 }
	'use strict'

	const { kReadyState, kController, kResponse, kBinaryType, kWebSocketURL } = require('./symbols')
	const { states, opcodes } = require('./constants')
	const { MessageEvent, ErrorEvent } = require('./events')

	/* globals Blob */

	/**
	* @param {import('./websocket').WebSocket} ws
	*/
	function isEstablished (ws) {
	// If the server's response is validated as provided for above, it is
	// said that _The WebSocket Connection is Established_ and that the
	// WebSocket Connection is in the OPEN state.
	return ws[kReadyState] === states.OPEN
	}

	/**
	* @param {import('./websocket').WebSocket} ws
	*/
	function isClosing (ws) {
	// Upon either sending or receiving a Close control frame, it is said
	// that _The WebSocket Closing Handshake is Started_ and that the
	// WebSocket connection is in the CLOSING state.
	return ws[kReadyState] === states.CLOSING
	}

	/**
	* @param {import('./websocket').WebSocket} ws
	*/
	function isClosed (ws) {
	return ws[kReadyState] === states.CLOSED
	}

	/**
	* @see https://dom.spec.whatwg.org/#concept-event-fire
	* @param {string} e
	* @param {EventTarget} target
	* @param {EventInit \| undefined} eventInitDict
	*/
	function fireEvent (e, target, eventConstructor = Event, eventInitDict) {
	// 1. If eventConstructor is not given, then let eventConstructor be Event.

	// 2. Let event be the result of creating an event given eventConstructor,
	// in the relevant realm of target.
	// 3. Initialize event’s type attribute to e.
	const event = new eventConstructor(e, eventInitDict) // eslint-disable-line new-cap

	// 4. Initialize any other IDL attributes of event as described in the
	// invocation of this algorithm.

	// 5. Return the result of dispatching event at target, with legacy target
	// override flag set if set.
	target.dispatchEvent(event)
	}

	/**
	* @see https://websockets.spec.whatwg.org/#feedback-from-the-protocol
	* @param {import('./websocket').WebSocket} ws
	* @param {number} type Opcode
	* @param {Buffer} data application data
	*/
	function websocketMessageReceived (ws, type, data) {
	// 1. If ready state is not OPEN (1), then return.
	if (ws[kReadyState] !== states.OPEN) {
	return
	}

	// 2. Let dataForEvent be determined by switching on type and binary type:
	let dataForEvent

	if (type === opcodes.TEXT) {
	// -> type indicates that the data is Text
	// a new DOMString containing data
	try {
	dataForEvent = new TextDecoder('utf-8', { fatal: true }).decode(data)
	} catch {
	failWebsocketConnection(ws, 'Received invalid UTF-8 in text frame.')
	return
	}
	} else if (type === opcodes.BINARY) {
	if (ws[kBinaryType] === 'blob') {
	// -> type indicates that the data is Binary and binary type is "blob"
	// a new Blob object, created in the relevant Realm of the WebSocket
	// object, that represents data as its raw data
	dataForEvent = new Blob([data])
	} else {
	// -> type indicates that the data is Binary and binary type is "arraybuffer"
	// a new ArrayBuffer object, created in the relevant Realm of the
	// WebSocket object, whose contents are data
	dataForEvent = new Uint8Array(data).buffer
	}
	}

	// 3. Fire an event named message at the WebSocket object, using MessageEvent,
	// with the origin attribute initialized to the serialization of the WebSocket
	// object’s url's origin, and the data attribute initialized to dataForEvent.
	fireEvent('message', ws, MessageEvent, {
	origin: ws[kWebSocketURL].origin,
	data: dataForEvent
	})
	}

	/**
	* @see https://datatracker.ietf.org/doc/html/rfc6455
	* @see https://datatracker.ietf.org/doc/html/rfc2616
	* @see https://bugs.chromium.org/p/chromium/issues/detail?id=398407
	* @param {string} protocol
	*/
	function isValidSubprotocol (protocol) {
	// If present, this value indicates one
	// or more comma-separated subprotocol the client wishes to speak,
	// ordered by preference. The elements that comprise this value
	// MUST be non-empty strings with characters in the range U+0021 to
	// U+007E not including separator characters as defined in
	// [RFC2616] and MUST all be unique strings.
	if (protocol.length === 0) {
	return false
	}

	for (const char of protocol) {
	const code = char.charCodeAt(0)

	if (
	code < 0x21 \|\|
	code > 0x7E \|\|
	char === '(' \|\|
	char === ')' \|\|
	char === '<' \|\|
	char === '>' \|\|
	char === '@' \|\|
	char === ',' \|\|
	char === ';' \|\|
	char === ':' \|\|
	char === '\\' \|\|
	char === '"' \|\|
	char === '/' \|\|
	char === '[' \|\|
	char === ']' \|\|
	char === '?' \|\|
	char === '=' \|\|
	char === '{' \|\|
	char === '}' \|\|
	code === 32 \|\| // SP
	code === 9 // HT
	) {
	return false
	}
	}

	return true
	}

	/**
	* @see https://datatracker.ietf.org/doc/html/rfc6455#section-7-4
	* @param {number} code
	*/
	function isValidStatusCode (code) {
	if (code >= 1000 && code < 1015) {
	return (
	code !== 1004 && // reserved
	code !== 1005 && // "MUST NOT be set as a status code"
	code !== 1006 // "MUST NOT be set as a status code"
	)
	}

	return code >= 3000 && code <= 4999
	}

	/**
	* @param {import('./websocket').WebSocket} ws
	* @param {string\|undefined} reason
	*/
	function failWebsocketConnection (ws, reason) {
	const { [kController]: controller, [kResponse]: response } = ws

	controller.abort()

	if (response?.socket && !response.socket.destroyed) {
	response.socket.destroy()
	}

	if (reason) {
	fireEvent('error', ws, ErrorEvent, {
	error: new Error(reason)
	})
	}
	}

	module.exports = {
	isEstablished,
	isClosing,
	isClosed,
	fireEvent,
	isValidSubprotocol,
	isValidStatusCode,
	failWebsocketConnection,
	websocketMessageReceived
	}