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denoland-deno/std/ws/test.ts
Bartek Iwańczuk 6e2df8c64f
feat: Deno.test() sanitizes ops and resources (#4399)
This PR brings assertOps and assertResources sanitizers to Deno.test() API.

assertOps checks that test doesn't leak async ops, ie. there are no unresolved
promises originating from Deno APIs. Enabled by default, can be disabled using 
Deno.TestDefinition.disableOpSanitizer.

assertResources checks that test doesn't leak resources, ie. all resources used
in test are closed. For example; if a file is opened during a test case it must be
explicitly closed before test case finishes. It's most useful for asynchronous
generators. Enabled by default, can be disabled using 
Deno.TestDefinition.disableResourceSanitizer.

We've used those sanitizers in internal runtime tests and it proved very useful in
surfacing incorrect tests which resulted in interference between the tests.

All tests have been sanitized.

Closes #4208
2020-03-18 19:25:55 -04:00

400 lines
12 KiB
TypeScript

// 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";
const { test } = Deno;
import { TextProtoReader } from "../textproto/mod.ts";
import * as bytes from "../bytes/mod.ts";
import {
acceptable,
connectWebSocket,
createSecAccept,
createSecKey,
handshake,
OpCode,
readFrame,
unmask,
writeFrame,
createWebSocket
} from "./mod.ts";
import { encode, decode } from "../strings/mod.ts";
import Writer = Deno.Writer;
import Reader = Deno.Reader;
import Conn = Deno.Conn;
import Buffer = Deno.Buffer;
import { delay } from "../util/async.ts";
test("[ws] read unmasked text frame", async () => {
// unmasked single text frame with payload "Hello"
const buf = new BufReader(
new Buffer(new Uint8Array([0x81, 0x05, 0x48, 0x65, 0x6c, 0x6c, 0x6f]))
);
const frame = await readFrame(buf);
assertEquals(frame.opcode, OpCode.TextFrame);
assertEquals(frame.mask, undefined);
assertEquals(new Buffer(frame.payload).toString(), "Hello");
assertEquals(frame.isLastFrame, true);
});
test("[ws] read masked text frame", async () => {
// a masked single text frame with payload "Hello"
const buf = new BufReader(
new 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);
assertEquals(new Buffer(frame.payload).toString(), "Hello");
assertEquals(frame.isLastFrame, true);
});
test("[ws] read unmasked split text frames", async () => {
const buf1 = new BufReader(
new Buffer(new Uint8Array([0x01, 0x03, 0x48, 0x65, 0x6c]))
);
const buf2 = new BufReader(
new 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);
assertEquals(new Buffer(f1.payload).toString(), "Hel");
assertEquals(f2.isLastFrame, true);
assertEquals(f2.mask, undefined);
assertEquals(f2.opcode, OpCode.Continue);
assertEquals(new Buffer(f2.payload).toString(), "lo");
});
test("[ws] read unmasked ping / pong frame", async () => {
// unmasked ping with payload "Hello"
const buf = new BufReader(
new Buffer(new Uint8Array([0x89, 0x05, 0x48, 0x65, 0x6c, 0x6c, 0x6f]))
);
const ping = await readFrame(buf);
assertEquals(ping.opcode, OpCode.Ping);
assertEquals(new Buffer(ping.payload).toString(), "Hello");
// prettier-ignore
const pongFrame= [0x8a, 0x85, 0x37, 0xfa, 0x21, 0x3d, 0x7f, 0x9f, 0x4d, 0x51, 0x58]
const buf2 = new BufReader(new Buffer(new Uint8Array(pongFrame)));
const pong = await readFrame(buf2);
assertEquals(pong.opcode, OpCode.Pong);
assert(pong.mask !== undefined);
unmask(pong.payload, pong.mask);
assertEquals(new Buffer(pong.payload).toString(), "Hello");
});
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 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);
});
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 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);
});
test("[ws] createSecAccept", async () => {
const nonce = "dGhlIHNhbXBsZSBub25jZQ==";
const d = createSecAccept(nonce);
assertEquals(d, "s3pPLMBiTxaQ9kYGzzhZRbK+xOo=");
});
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"]
])
})
);
});
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
);
});
test("[ws] connectWebSocket should throw invalid scheme of url", async (): Promise<
void
> => {
await assertThrowsAsync(
async (): Promise<void> => {
await connectWebSocket("file://hoge/hoge");
}
);
});
test("[ws] write and read masked frame", async () => {
const mask = new Uint8Array([0, 1, 2, 3]);
const msg = "hello";
const buf = new 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));
});
test("[ws] handshake should not send search when it's empty", async () => {
const writer = new Buffer();
const reader = new 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");
});
test("[ws] handshake should send search correctly", async function wsHandshakeWithSearch(): Promise<
void
> {
const writer = new Buffer();
const reader = new 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");
});
test("[ws] ws.close() should use 1000 as close code", async () => {
const buf = new 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: Reader, w: Writer): Conn {
return {
rid: -1,
closeRead: (): void => {},
closeWrite: (): void => {},
read: (x): Promise<number | Deno.EOF> => r.read(x),
write: (x): 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: Writer): Writer {
return {
write(p: Uint8Array): Promise<number> {
return new Promise<number>(resolve => {
setTimeout(async (): Promise<void> => {
resolve(await dest.write(p));
}, ms);
});
}
};
}
test({
name: "[ws] WebSocket.send(), WebSocket.ping() should be exclusive",
fn: async (): Promise<void> => {
const buf = new Buffer();
const conn = dummyConn(new 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);
}
});
test("[ws] createSecKeyHasCorrectLength", () => {
// Note: relies on --seed=86 being passed to deno to reproduce failure in
// #4063.
const secKey = createSecKey();
assertEquals(atob(secKey).length, 16);
});
test("[ws] WebSocket should throw `Deno.errors.ConnectionReset` when peer closed connection without close frame", async () => {
const buf = new Buffer();
const eofReader: Deno.Reader = {
async read(_: Uint8Array): Promise<number | Deno.EOF> {
return Deno.EOF;
}
};
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);
});
test("[ws] WebSocket shouldn't throw `Deno.errors.UnexpectedEof` on recive()", async () => {
const buf = new Buffer();
const eofReader: Deno.Reader = {
async read(_: Uint8Array): Promise<number | Deno.EOF> {
return Deno.EOF;
}
};
const conn = dummyConn(eofReader, buf);
const sock = createWebSocket({ conn });
const it = sock.receive();
const { value, done } = await it.next();
assertEquals(value, undefined);
assertEquals(done, true);
});
test({
name:
"[ws] WebSocket should reject sending promise when connection reset forcely",
fn: async () => {
const buf = new Buffer();
let timer: number | undefined;
const lazyWriter: Deno.Writer = {
async 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);
}
});