// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license. import { Buffer, Writer, Conn } from "deno"; import { ServerRequest } from "./http.ts"; import { BufReader, BufWriter } from "./bufio.ts"; import { readLong, readShort, sliceLongToBytes } from "./ioutil.ts"; import { Sha1 } from "./sha1.ts"; export const OpCodeContinue = 0x0; export const OpCodeTextFrame = 0x1; export const OpCodeBinaryFrame = 0x2; export const OpCodeClose = 0x8; export const OpcodePing = 0x9; export const OpcodePong = 0xa; export type WebSocketEvent = | string | Uint8Array | WebSocketCloseEvent | WebSocketPingEvent | WebSocketPongEvent; export type WebSocketCloseEvent = { code: number; reason?: string; }; export function isWebSocketCloseEvent(a): a is WebSocketCloseEvent { return a && typeof a["code"] === "number"; } export type WebSocketPingEvent = ["ping", Uint8Array]; export function isWebSocketPingEvent(a): a is WebSocketPingEvent { return Array.isArray(a) && a[0] === "ping" && a[1] instanceof Uint8Array; } export type WebSocketPongEvent = ["pong", Uint8Array]; export function isWebSocketPongEvent(a): a is WebSocketPongEvent { return Array.isArray(a) && a[0] === "pong" && a[1] instanceof Uint8Array; } export class SocketClosedError extends Error {} export type WebSocketFrame = { isLastFrame: boolean; opcode: number; mask?: Uint8Array; payload: Uint8Array; }; export type WebSocket = { readonly isClosed: boolean; receive(): AsyncIterableIterator; send(data: string | Uint8Array): Promise; ping(data?: string | Uint8Array): Promise; close(code: number, reason?: string): Promise; }; class WebSocketImpl implements WebSocket { encoder = new TextEncoder(); constructor(private conn: Conn, private mask?: Uint8Array) {} async *receive(): AsyncIterableIterator { let frames: WebSocketFrame[] = []; let payloadsLength = 0; for await (const frame of receiveFrame(this.conn)) { unmask(frame.payload, frame.mask); switch (frame.opcode) { case OpCodeTextFrame: case OpCodeBinaryFrame: case OpCodeContinue: frames.push(frame); payloadsLength += frame.payload.length; if (frame.isLastFrame) { const concat = new Uint8Array(payloadsLength); let offs = 0; for (const frame of frames) { concat.set(frame.payload, offs); offs += frame.payload.length; } if (frames[0].opcode === OpCodeTextFrame) { // text yield new Buffer(concat).toString(); } else { // binary yield concat; } frames = []; payloadsLength = 0; } break; case OpCodeClose: const code = (frame.payload[0] << 16) | frame.payload[1]; const reason = new Buffer( frame.payload.subarray(2, frame.payload.length) ).toString(); this._isClosed = true; yield { code, reason }; return; case OpcodePing: yield ["ping", frame.payload] as WebSocketPingEvent; break; case OpcodePong: yield ["pong", frame.payload] as WebSocketPongEvent; break; } } } async send(data: string | Uint8Array): Promise { if (this.isClosed) { throw new SocketClosedError("socket has been closed"); } const opcode = typeof data === "string" ? OpCodeTextFrame : OpCodeBinaryFrame; const payload = typeof data === "string" ? this.encoder.encode(data) : data; const isLastFrame = true; await writeFrame( { isLastFrame, opcode, payload, mask: this.mask }, this.conn ); } async ping(data: string | Uint8Array): Promise { const payload = typeof data === "string" ? this.encoder.encode(data) : data; await writeFrame( { isLastFrame: true, opcode: OpCodeClose, mask: this.mask, payload }, this.conn ); } private _isClosed = false; get isClosed() { return this._isClosed; } async close(code: number, reason?: string): Promise { try { const header = [code >>> 8, code & 0x00ff]; let payload: Uint8Array; if (reason) { const reasonBytes = this.encoder.encode(reason); payload = new Uint8Array(2 + reasonBytes.byteLength); payload.set(header); payload.set(reasonBytes, 2); } else { payload = new Uint8Array(header); } await writeFrame( { isLastFrame: true, opcode: OpCodeClose, mask: this.mask, payload }, this.conn ); } catch (e) { throw e; } finally { this.ensureSocketClosed(); } } private ensureSocketClosed(): Error { if (this.isClosed) return; try { this.conn.close(); } catch (e) { console.error(e); } finally { this._isClosed = true; } } } export async function* receiveFrame( conn: Conn ): AsyncIterableIterator { let receiving = true; const reader = new BufReader(conn); while (receiving) { const frame = await readFrame(reader); switch (frame.opcode) { case OpCodeTextFrame: case OpCodeBinaryFrame: case OpCodeContinue: yield frame; break; case OpCodeClose: await writeFrame( { isLastFrame: true, opcode: OpCodeClose, payload: frame.payload }, conn ); conn.close(); yield frame; receiving = false; break; case OpcodePing: await writeFrame( { isLastFrame: true, opcode: OpcodePong, payload: frame.payload }, conn ); yield frame; break; case OpcodePong: yield frame; break; } } } export async function writeFrame(frame: WebSocketFrame, writer: Writer) { let payloadLength = frame.payload.byteLength; let header: Uint8Array; const hasMask = (frame.mask ? 1 : 0) << 7; if (payloadLength < 126) { header = new Uint8Array([ (0b1000 << 4) | frame.opcode, hasMask | payloadLength ]); } else if (payloadLength < 0xffff) { header = new Uint8Array([ (0b1000 << 4) | frame.opcode, hasMask | 0b01111110, payloadLength >>> 8, payloadLength & 0x00ff ]); } else { header = new Uint8Array([ (0b1000 << 4) | frame.opcode, hasMask | 0b01111111, ...sliceLongToBytes(payloadLength) ]); } if (frame.mask) { unmask(frame.payload, frame.mask); } const bytes = new Uint8Array(header.length + payloadLength); bytes.set(header, 0); bytes.set(frame.payload, header.length); const w = new BufWriter(writer); await w.write(bytes); await w.flush(); } export function unmask(payload: Uint8Array, mask: Uint8Array) { if (mask) { for (let i = 0; i < payload.length; i++) { payload[i] ^= mask[i % 4]; } } } export function acceptable(req: ServerRequest): boolean { return ( req.headers.get("upgrade") === "websocket" && req.headers.has("sec-websocket-key") ); } export async function acceptWebSocket(req: ServerRequest): Promise { if (acceptable(req)) { const sock = new WebSocketImpl(req.conn); const secKey = req.headers.get("sec-websocket-key"); const secAccept = createSecAccept(secKey); await req.respond({ status: 101, headers: new Headers({ Upgrade: "websocket", Connection: "Upgrade", "Sec-WebSocket-Accept": secAccept }) }); return sock; } throw new Error("request is not acceptable"); } const kGUID = "258EAFA5-E914-47DA-95CA-C5AB0DC85B11"; export function createSecAccept(nonce: string) { const sha1 = new Sha1(); sha1.update(nonce + kGUID); const bytes = sha1.digest(); const hash = bytes.reduce( (data, byte) => data + String.fromCharCode(byte), "" ); return btoa(hash); } export async function readFrame(buf: BufReader): Promise { let b = await buf.readByte(); let isLastFrame = false; switch (b >>> 4) { case 0b1000: isLastFrame = true; break; case 0b0000: isLastFrame = false; break; default: throw new Error("invalid signature"); } const opcode = b & 0x0f; // has_mask & payload b = await buf.readByte(); const hasMask = b >>> 7; let payloadLength = b & 0b01111111; if (payloadLength === 126) { payloadLength = await readShort(buf); } else if (payloadLength === 127) { payloadLength = await readLong(buf); } // mask let mask; if (hasMask) { mask = new Uint8Array(4); await buf.readFull(mask); } // payload const payload = new Uint8Array(payloadLength); await buf.readFull(payload); return { isLastFrame, opcode, mask, payload }; }