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denoland-deno/ws/mod.ts

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// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
import { Buffer, Writer, Conn } from "deno";
import { ServerRequest } from "../http/http.ts";
import { BufReader, BufWriter } from "../io/bufio.ts";
import { readLong, readShort, sliceLongToBytes } from "../io/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;
}
// TODO move this to common/util module
export function append(a: Uint8Array, b: Uint8Array) {
if (a == null || !a.length) return b;
if (b == null || !b.length) return a;
const output = new Uint8Array(a.length + b.length);
output.set(a, 0);
output.set(b, a.length);
return output;
}
export class SocketClosedError extends Error {}
export type WebSocketFrame = {
isLastFrame: boolean;
opcode: number;
mask?: Uint8Array;
payload: Uint8Array;
};
export type WebSocket = {
readonly isClosed: boolean;
receive(): AsyncIterableIterator<WebSocketEvent>;
send(data: string | Uint8Array): Promise<void>;
ping(data?: string | Uint8Array): Promise<void>;
close(code: number, reason?: string): Promise<void>;
};
class WebSocketImpl implements WebSocket {
encoder = new TextEncoder();
constructor(private conn: Conn, private mask?: Uint8Array) {}
async *receive(): AsyncIterableIterator<WebSocketEvent> {
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<void> {
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<void> {
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<void> {
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<WebSocketFrame> {
let receiving = true;
let isLastFrame = true;
const reader = new BufReader(conn);
while (receiving) {
const frame = await readFrame(reader);
const { opcode, payload } = frame;
switch (opcode) {
case OpCodeTextFrame:
case OpCodeBinaryFrame:
case OpCodeContinue:
yield frame;
break;
case OpCodeClose:
await writeFrame(
{
opcode,
payload,
isLastFrame
},
conn
);
conn.close();
yield frame;
receiving = false;
break;
case OpcodePing:
await writeFrame(
{
payload,
isLastFrame,
opcode: OpcodePong
},
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 ? 0x80 : 0;
if (payloadLength < 126) {
header = new Uint8Array([0x80 | frame.opcode, hasMask | payloadLength]);
} else if (payloadLength < 0xffff) {
header = new Uint8Array([
0x80 | frame.opcode,
hasMask | 0b01111110,
payloadLength >>> 8,
payloadLength & 0x00ff
]);
} else {
header = new Uint8Array([
0x80 | frame.opcode,
hasMask | 0b01111111,
...sliceLongToBytes(payloadLength)
]);
}
unmask(frame.payload, frame.mask);
const bytes = append(header, frame.payload);
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, len = payload.length; i < len; i++) {
payload[i] ^= mask![i & 3];
}
}
}
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<WebSocket> {
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();
return btoa(String.fromCharCode.apply(String, bytes));
}
export async function readFrame(buf: BufReader): Promise<WebSocketFrame> {
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
};
}