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denoland-deno/std/ws/test.ts

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// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
import { BufReader, BufWriter } from "../io/bufio.ts";
import { assert, assertEquals, assertThrowsAsync } from "../testing/asserts.ts";
import { TextProtoReader } from "../textproto/mod.ts";
import * as bytes from "../bytes/mod.ts";
import {
acceptable,
connectWebSocket,
createSecAccept,
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createSecKey,
handshake,
OpCode,
readFrame,
unmask,
writeFrame,
createWebSocket,
} from "./mod.ts";
import { encode, decode } from "../encoding/utf8.ts";
import { delay } from "../async/delay.ts";
Deno.test("[ws] read unmasked text frame", async () => {
// unmasked single text frame with payload "Hello"
const buf = new BufReader(
new Deno.Buffer(new Uint8Array([0x81, 0x05, 0x48, 0x65, 0x6c, 0x6c, 0x6f]))
);
const frame = await readFrame(buf);
assertEquals(frame.opcode, OpCode.TextFrame);
assertEquals(frame.mask, undefined);
const actual = new TextDecoder().decode(
new Deno.Buffer(frame.payload).bytes()
);
assertEquals(actual, "Hello");
assertEquals(frame.isLastFrame, true);
});
Deno.test("[ws] read masked text frame", async () => {
// a masked single text frame with payload "Hello"
const buf = new BufReader(
new Deno.Buffer(
new Uint8Array([
0x81,
0x85,
0x37,
0xfa,
0x21,
0x3d,
0x7f,
0x9f,
0x4d,
0x51,
0x58,
])
)
);
const frame = await readFrame(buf);
assertEquals(frame.opcode, OpCode.TextFrame);
unmask(frame.payload, frame.mask);
const actual = new TextDecoder().decode(
new Deno.Buffer(frame.payload).bytes()
);
assertEquals(actual, "Hello");
assertEquals(frame.isLastFrame, true);
});
Deno.test("[ws] read unmasked split text frames", async () => {
const buf1 = new BufReader(
new Deno.Buffer(new Uint8Array([0x01, 0x03, 0x48, 0x65, 0x6c]))
);
const buf2 = new BufReader(
new Deno.Buffer(new Uint8Array([0x80, 0x02, 0x6c, 0x6f]))
);
const [f1, f2] = await Promise.all([readFrame(buf1), readFrame(buf2)]);
assertEquals(f1.isLastFrame, false);
assertEquals(f1.mask, undefined);
assertEquals(f1.opcode, OpCode.TextFrame);
const actual1 = new TextDecoder().decode(new Deno.Buffer(f1.payload).bytes());
assertEquals(actual1, "Hel");
assertEquals(f2.isLastFrame, true);
assertEquals(f2.mask, undefined);
assertEquals(f2.opcode, OpCode.Continue);
const actual2 = new TextDecoder().decode(new Deno.Buffer(f2.payload).bytes());
assertEquals(actual2, "lo");
});
Deno.test("[ws] read unmasked ping / pong frame", async () => {
// unmasked ping with payload "Hello"
const buf = new BufReader(
new Deno.Buffer(new Uint8Array([0x89, 0x05, 0x48, 0x65, 0x6c, 0x6c, 0x6f]))
);
const ping = await readFrame(buf);
assertEquals(ping.opcode, OpCode.Ping);
const actual1 = new TextDecoder().decode(
new Deno.Buffer(ping.payload).bytes()
);
assertEquals(actual1, "Hello");
// prettier-ignore
const pongFrame= [0x8a, 0x85, 0x37, 0xfa, 0x21, 0x3d, 0x7f, 0x9f, 0x4d, 0x51, 0x58]
const buf2 = new BufReader(new Deno.Buffer(new Uint8Array(pongFrame)));
const pong = await readFrame(buf2);
assertEquals(pong.opcode, OpCode.Pong);
assert(pong.mask !== undefined);
unmask(pong.payload, pong.mask);
const actual2 = new TextDecoder().decode(
new Deno.Buffer(pong.payload).bytes()
);
assertEquals(actual2, "Hello");
});
Deno.test("[ws] read unmasked big binary frame", async () => {
const payloadLength = 0x100;
const a = [0x82, 0x7e, 0x01, 0x00];
for (let i = 0; i < payloadLength; i++) {
a.push(i);
}
const buf = new BufReader(new Deno.Buffer(new Uint8Array(a)));
const bin = await readFrame(buf);
assertEquals(bin.opcode, OpCode.BinaryFrame);
assertEquals(bin.isLastFrame, true);
assertEquals(bin.mask, undefined);
assertEquals(bin.payload.length, payloadLength);
});
Deno.test("[ws] read unmasked bigger binary frame", async () => {
const payloadLength = 0x10000;
const a = [0x82, 0x7f, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00];
for (let i = 0; i < payloadLength; i++) {
a.push(i);
}
const buf = new BufReader(new Deno.Buffer(new Uint8Array(a)));
const bin = await readFrame(buf);
assertEquals(bin.opcode, OpCode.BinaryFrame);
assertEquals(bin.isLastFrame, true);
assertEquals(bin.mask, undefined);
assertEquals(bin.payload.length, payloadLength);
});
Deno.test("[ws] createSecAccept", () => {
const nonce = "dGhlIHNhbXBsZSBub25jZQ==";
const d = createSecAccept(nonce);
assertEquals(d, "s3pPLMBiTxaQ9kYGzzhZRbK+xOo=");
});
Deno.test("[ws] acceptable", () => {
const ret = acceptable({
headers: new Headers({
upgrade: "websocket",
"sec-websocket-key": "aaa",
}),
});
assertEquals(ret, true);
assert(
acceptable({
headers: new Headers([
["connection", "Upgrade"],
["host", "127.0.0.1:9229"],
[
"sec-websocket-extensions",
"permessage-deflate; client_max_window_bits",
],
["sec-websocket-key", "dGhlIHNhbXBsZSBub25jZQ=="],
["sec-websocket-version", "13"],
["upgrade", "WebSocket"],
]),
})
);
});
Deno.test("[ws] acceptable should return false when headers invalid", () => {
assertEquals(
acceptable({
headers: new Headers({ "sec-websocket-key": "aaa" }),
}),
false
);
assertEquals(
acceptable({
headers: new Headers({ upgrade: "websocket" }),
}),
false
);
assertEquals(
acceptable({
headers: new Headers({ upgrade: "invalid", "sec-websocket-key": "aaa" }),
}),
false
);
assertEquals(
acceptable({
headers: new Headers({ upgrade: "websocket", "sec-websocket-ky": "" }),
}),
false
);
});
Deno.test(
"[ws] connectWebSocket should throw invalid scheme of url",
async (): Promise<void> => {
await assertThrowsAsync(
async (): Promise<void> => {
await connectWebSocket("file://hoge/hoge");
}
);
}
);
Deno.test("[ws] write and read masked frame", async () => {
const mask = new Uint8Array([0, 1, 2, 3]);
const msg = "hello";
const buf = new Deno.Buffer();
const r = new BufReader(buf);
await writeFrame(
{
isLastFrame: true,
mask,
opcode: OpCode.TextFrame,
payload: encode(msg),
},
buf
);
const frame = await readFrame(r);
assertEquals(frame.opcode, OpCode.TextFrame);
assertEquals(frame.isLastFrame, true);
assertEquals(frame.mask, mask);
unmask(frame.payload, frame.mask);
assertEquals(frame.payload, encode(msg));
});
Deno.test("[ws] handshake should not send search when it's empty", async () => {
const writer = new Deno.Buffer();
const reader = new Deno.Buffer(encode("HTTP/1.1 400\r\n"));
await assertThrowsAsync(
async (): Promise<void> => {
await handshake(
new URL("ws://example.com"),
new Headers(),
new BufReader(reader),
new BufWriter(writer)
);
}
);
const tpReader = new TextProtoReader(new BufReader(writer));
const statusLine = await tpReader.readLine();
assertEquals(statusLine, "GET / HTTP/1.1");
});
Deno.test(
"[ws] handshake should send search correctly",
async function wsHandshakeWithSearch(): Promise<void> {
const writer = new Deno.Buffer();
const reader = new Deno.Buffer(encode("HTTP/1.1 400\r\n"));
await assertThrowsAsync(
async (): Promise<void> => {
await handshake(
new URL("ws://example.com?a=1"),
new Headers(),
new BufReader(reader),
new BufWriter(writer)
);
}
);
const tpReader = new TextProtoReader(new BufReader(writer));
const statusLine = await tpReader.readLine();
assertEquals(statusLine, "GET /?a=1 HTTP/1.1");
}
);
Deno.test("[ws] ws.close() should use 1000 as close code", async () => {
const buf = new Deno.Buffer();
const bufr = new BufReader(buf);
const conn = dummyConn(buf, buf);
const ws = createWebSocket({ conn });
await ws.close();
const frame = await readFrame(bufr);
assertEquals(frame.opcode, OpCode.Close);
const code = (frame.payload[0] << 8) | frame.payload[1];
assertEquals(code, 1000);
});
function dummyConn(r: Deno.Reader, w: Deno.Writer): Deno.Conn {
return {
rid: -1,
closeWrite: (): void => {},
read: (x: Uint8Array): Promise<number | null> => r.read(x),
write: (x: Uint8Array): Promise<number> => w.write(x),
close: (): void => {},
localAddr: { transport: "tcp", hostname: "0.0.0.0", port: 0 },
remoteAddr: { transport: "tcp", hostname: "0.0.0.0", port: 0 },
};
}
function delayedWriter(ms: number, dest: Deno.Writer): Deno.Writer {
return {
write(p: Uint8Array): Promise<number> {
return new Promise<number>((resolve) => {
setTimeout(async (): Promise<void> => {
resolve(await dest.write(p));
}, ms);
});
},
};
}
Deno.test({
name: "[ws] WebSocket.send(), WebSocket.ping() should be exclusive",
fn: async (): Promise<void> => {
const buf = new Deno.Buffer();
const conn = dummyConn(new Deno.Buffer(), delayedWriter(1, buf));
const sock = createWebSocket({ conn });
// Ensure send call
await Promise.all([
sock.send("first"),
sock.send("second"),
sock.ping(),
sock.send(new Uint8Array([3])),
]);
const bufr = new BufReader(buf);
const first = await readFrame(bufr);
const second = await readFrame(bufr);
const ping = await readFrame(bufr);
const third = await readFrame(bufr);
assertEquals(first.opcode, OpCode.TextFrame);
assertEquals(decode(first.payload), "first");
assertEquals(first.opcode, OpCode.TextFrame);
assertEquals(decode(second.payload), "second");
assertEquals(ping.opcode, OpCode.Ping);
assertEquals(third.opcode, OpCode.BinaryFrame);
assertEquals(bytes.equal(third.payload, new Uint8Array([3])), true);
},
});
Deno.test("[ws] createSecKeyHasCorrectLength", () => {
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// Note: relies on --seed=86 being passed to deno to reproduce failure in
// #4063.
const secKey = createSecKey();
assertEquals(atob(secKey).length, 16);
});
Deno.test(
"[ws] WebSocket should throw `Deno.errors.ConnectionReset` when peer closed connection without close frame",
async () => {
const buf = new Deno.Buffer();
const eofReader: Deno.Reader = {
read(_: Uint8Array): Promise<number | null> {
return Promise.resolve(null);
},
};
const conn = dummyConn(eofReader, buf);
const sock = createWebSocket({ conn });
sock.closeForce();
await assertThrowsAsync(
() => sock.send("hello"),
Deno.errors.ConnectionReset
);
await assertThrowsAsync(() => sock.ping(), Deno.errors.ConnectionReset);
await assertThrowsAsync(() => sock.close(0), Deno.errors.ConnectionReset);
}
);
Deno.test(
"[ws] WebSocket shouldn't throw `Deno.errors.UnexpectedEof`",
async () => {
const buf = new Deno.Buffer();
const eofReader: Deno.Reader = {
read(_: Uint8Array): Promise<number | null> {
return Promise.resolve(null);
},
};
const conn = dummyConn(eofReader, buf);
const sock = createWebSocket({ conn });
const it = sock[Symbol.asyncIterator]();
const { value, done } = await it.next();
assertEquals(value, undefined);
assertEquals(done, true);
}
);
Deno.test({
name:
"[ws] WebSocket should reject sending promise when connection reset forcely",
fn: async () => {
const buf = new Deno.Buffer();
let timer: number | undefined;
const lazyWriter: Deno.Writer = {
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write(_: Uint8Array): Promise<number> {
return new Promise((resolve) => {
timer = setTimeout(() => resolve(0), 1000);
});
},
};
const conn = dummyConn(buf, lazyWriter);
const sock = createWebSocket({ conn });
const onError = (e: unknown): unknown => e;
const p = Promise.all([
sock.send("hello").catch(onError),
sock.send(new Uint8Array([1, 2])).catch(onError),
sock.ping().catch(onError),
]);
sock.closeForce();
assertEquals(sock.isClosed, true);
const [a, b, c] = await p;
assert(a instanceof Deno.errors.ConnectionReset);
assert(b instanceof Deno.errors.ConnectionReset);
assert(c instanceof Deno.errors.ConnectionReset);
clearTimeout(timer);
// Wait for another event loop turn for `timeout` op promise
// to resolve, otherwise we'll get "op leak".
await delay(10);
},
});
Deno.test("[ws] WebSocket should act as asyncIterator", async () => {
const pingHello = new Uint8Array([0x89, 0x05, 0x48, 0x65, 0x6c, 0x6c, 0x6f]);
const hello = new Uint8Array([0x81, 0x05, 0x48, 0x65, 0x6c, 0x6c, 0x6f]);
const close = new Uint8Array([0x88, 0x04, 0x03, 0xf3, 0x34, 0x32]);
enum Frames {
ping,
hello,
close,
end,
}
let frame = Frames.ping;
const reader: Deno.Reader = {
read(p: Uint8Array): Promise<number | null> {
if (frame === Frames.ping) {
frame = Frames.hello;
p.set(pingHello);
return Promise.resolve(pingHello.byteLength);
}
if (frame === Frames.hello) {
frame = Frames.close;
p.set(hello);
return Promise.resolve(hello.byteLength);
}
if (frame === Frames.close) {
frame = Frames.end;
p.set(close);
return Promise.resolve(close.byteLength);
}
return Promise.resolve(null);
},
};
const conn = dummyConn(reader, new Deno.Buffer());
const sock = createWebSocket({ conn });
const events = [];
for await (const wsEvent of sock) {
events.push(wsEvent);
}
assertEquals(events.length, 3);
assertEquals(events[0], ["ping", encode("Hello")]);
assertEquals(events[1], "Hello");
assertEquals(events[2], { code: 1011, reason: "42" });
});