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082f8128b8
Based on #21074 and #20741 I was looking for further potential use cases of `TransformStream` `cancel()` method, so here go `CompressionStream` and `DecompressionStream`. Fixes #14212
535 lines
16 KiB
TypeScript
535 lines
16 KiB
TypeScript
// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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import { assertEquals, assertRejects, fail } from "./test_util.ts";
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const {
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core,
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resourceForReadableStream,
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// @ts-expect-error TypeScript (as of 3.7) does not support indexing namespaces by symbol
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} = Deno[Deno.internal];
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const LOREM =
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"Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua.";
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// Hello world, with optional close
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function helloWorldStream(
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close?: boolean,
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cancelResolve?: (value: unknown) => void,
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) {
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return new ReadableStream({
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start(controller) {
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controller.enqueue("hello, world");
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if (close == true) {
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controller.close();
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}
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},
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cancel(reason) {
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if (cancelResolve != undefined) {
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cancelResolve(reason);
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}
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},
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}).pipeThrough(new TextEncoderStream());
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}
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// Hello world, with optional close
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function errorStream(type: "string" | "controller" | "TypeError") {
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return new ReadableStream({
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start(controller) {
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controller.enqueue("hello, world");
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},
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pull(controller) {
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if (type == "string") {
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throw "Uh oh (string)!";
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}
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if (type == "TypeError") {
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throw TypeError("Uh oh (TypeError)!");
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}
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controller.error("Uh oh (controller)!");
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},
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}).pipeThrough(new TextEncoderStream());
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}
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// Long stream with Lorem Ipsum text.
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function longStream() {
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return new ReadableStream({
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start(controller) {
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for (let i = 0; i < 4; i++) {
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setTimeout(() => {
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controller.enqueue(LOREM);
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if (i == 3) {
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controller.close();
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}
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}, i * 100);
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}
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},
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}).pipeThrough(new TextEncoderStream());
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}
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// Long stream with Lorem Ipsum text.
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function longAsyncStream(cancelResolve?: (value: unknown) => void) {
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let currentTimeout: number | undefined = undefined;
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return new ReadableStream({
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async start(controller) {
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for (let i = 0; i < 100; i++) {
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await new Promise((r) => currentTimeout = setTimeout(r, 1));
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currentTimeout = undefined;
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controller.enqueue(LOREM);
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}
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controller.close();
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},
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cancel(reason) {
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if (cancelResolve != undefined) {
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cancelResolve(reason);
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}
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if (currentTimeout !== undefined) {
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clearTimeout(currentTimeout);
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}
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},
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}).pipeThrough(new TextEncoderStream());
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}
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// Empty stream, closes either immediately or on a call to pull.
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function emptyStream(onPull: boolean) {
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return new ReadableStream({
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start(controller) {
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if (!onPull) {
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controller.close();
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}
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},
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pull(controller) {
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if (onPull) {
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controller.close();
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}
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},
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}).pipeThrough(new TextEncoderStream());
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}
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function largePacketStream(packetSize: number, count: number) {
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return new ReadableStream({
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pull(controller) {
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if (count-- > 0) {
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const buffer = new Uint8Array(packetSize);
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for (let i = 0; i < 256; i++) {
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buffer[i * (packetSize / 256)] = i;
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}
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controller.enqueue(buffer);
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} else {
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controller.close();
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}
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},
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});
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}
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// Include an empty chunk
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function emptyChunkStream() {
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return new ReadableStream({
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start(controller) {
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controller.enqueue(new Uint8Array([1]));
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controller.enqueue(new Uint8Array([]));
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controller.enqueue(new Uint8Array([2]));
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controller.close();
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},
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});
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}
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// Try to blow up any recursive reads.
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function veryLongTinyPacketStream(length: number) {
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return new ReadableStream({
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start(controller) {
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for (let i = 0; i < length; i++) {
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controller.enqueue(new Uint8Array([1]));
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}
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controller.close();
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},
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});
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}
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// Creates a stream with the given number of packets, a configurable delay between packets, and a final
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// action (either "Throw" or "Close").
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function makeStreamWithCount(
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count: number,
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delay: number,
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action: "Throw" | "Close",
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): ReadableStream {
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function doAction(controller: ReadableStreamDefaultController, i: number) {
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if (i == count) {
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if (action == "Throw") {
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controller.error(new Error("Expected error!"));
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} else {
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controller.close();
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}
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} else {
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controller.enqueue(String.fromCharCode("a".charCodeAt(0) + i));
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if (delay == 0) {
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doAction(controller, i + 1);
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} else {
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setTimeout(() => doAction(controller, i + 1), delay);
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}
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}
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}
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return new ReadableStream({
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start(controller) {
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if (delay == 0) {
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doAction(controller, 0);
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} else {
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setTimeout(() => doAction(controller, 0), delay);
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}
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},
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}).pipeThrough(new TextEncoderStream());
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}
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// Normal stream operation
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Deno.test(async function readableStream() {
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const rid = resourceForReadableStream(helloWorldStream());
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const buffer = new Uint8Array(1024);
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const nread = await core.read(rid, buffer);
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assertEquals(nread, 12);
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core.close(rid);
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});
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// Close the stream after reading everything
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Deno.test(async function readableStreamClose() {
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const cancel = Promise.withResolvers();
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const rid = resourceForReadableStream(
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helloWorldStream(false, cancel.resolve),
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);
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const buffer = new Uint8Array(1024);
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const nread = await core.read(rid, buffer);
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assertEquals(nread, 12);
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core.close(rid);
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assertEquals(await cancel.promise, "resource closed");
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});
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// Close the stream without reading everything
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Deno.test(async function readableStreamClosePartialRead() {
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const cancel = Promise.withResolvers();
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const rid = resourceForReadableStream(
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helloWorldStream(false, cancel.resolve),
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);
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const buffer = new Uint8Array(5);
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const nread = await core.read(rid, buffer);
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assertEquals(nread, 5);
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core.close(rid);
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assertEquals(await cancel.promise, "resource closed");
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});
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// Close the stream without reading anything
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Deno.test(async function readableStreamCloseWithoutRead() {
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const cancel = Promise.withResolvers();
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const rid = resourceForReadableStream(
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helloWorldStream(false, cancel.resolve),
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);
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core.close(rid);
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assertEquals(await cancel.promise, "resource closed");
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});
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// Close the stream without reading anything
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Deno.test(async function readableStreamCloseWithoutRead2() {
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const cancel = Promise.withResolvers();
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const rid = resourceForReadableStream(longAsyncStream(cancel.resolve));
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core.close(rid);
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assertEquals(await cancel.promise, "resource closed");
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});
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Deno.test(async function readableStreamPartial() {
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const rid = resourceForReadableStream(helloWorldStream());
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const buffer = new Uint8Array(5);
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const nread = await core.read(rid, buffer);
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assertEquals(nread, 5);
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const buffer2 = new Uint8Array(1024);
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const nread2 = await core.read(rid, buffer2);
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assertEquals(nread2, 7);
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core.close(rid);
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});
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Deno.test(async function readableStreamLongReadAll() {
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const rid = resourceForReadableStream(longStream());
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const buffer = await core.readAll(rid);
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assertEquals(buffer.length, LOREM.length * 4);
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core.close(rid);
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});
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Deno.test(async function readableStreamLongAsyncReadAll() {
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const rid = resourceForReadableStream(longAsyncStream());
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const buffer = await core.readAll(rid);
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assertEquals(buffer.length, LOREM.length * 100);
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core.close(rid);
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});
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Deno.test(async function readableStreamVeryLongReadAll() {
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const rid = resourceForReadableStream(veryLongTinyPacketStream(1_000_000));
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const buffer = await core.readAll(rid);
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assertEquals(buffer.length, 1_000_000);
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core.close(rid);
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});
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Deno.test(async function readableStreamLongByPiece() {
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const rid = resourceForReadableStream(longStream());
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let total = 0;
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for (let i = 0; i < 100; i++) {
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const length = await core.read(rid, new Uint8Array(16));
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total += length;
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if (length == 0) {
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break;
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}
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}
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assertEquals(total, LOREM.length * 4);
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core.close(rid);
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});
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for (
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const type of [
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"string",
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"TypeError",
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"controller",
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] as ("string" | "TypeError" | "controller")[]
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) {
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Deno.test(`readableStreamError_${type}`, async function () {
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const rid = resourceForReadableStream(errorStream(type));
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let nread;
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try {
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nread = await core.read(rid, new Uint8Array(16));
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} catch (_) {
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fail("Should not have thrown");
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}
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assertEquals(12, nread);
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try {
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await core.read(rid, new Uint8Array(1));
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fail();
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} catch (e) {
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assertEquals(e.message, `Uh oh (${type})!`);
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}
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core.close(rid);
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});
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}
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Deno.test(async function readableStreamEmptyOnStart() {
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const rid = resourceForReadableStream(emptyStream(true));
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const buffer = new Uint8Array(1024);
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const nread = await core.read(rid, buffer);
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assertEquals(nread, 0);
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core.close(rid);
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});
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Deno.test(async function readableStreamEmptyOnPull() {
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const rid = resourceForReadableStream(emptyStream(false));
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const buffer = new Uint8Array(1024);
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const nread = await core.read(rid, buffer);
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assertEquals(nread, 0);
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core.close(rid);
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});
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Deno.test(async function readableStreamEmptyReadAll() {
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const rid = resourceForReadableStream(emptyStream(false));
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const buffer = await core.readAll(rid);
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assertEquals(buffer.length, 0);
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core.close(rid);
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});
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Deno.test(async function readableStreamWithEmptyChunk() {
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const rid = resourceForReadableStream(emptyChunkStream());
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const buffer = await core.readAll(rid);
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assertEquals(buffer, new Uint8Array([1, 2]));
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core.close(rid);
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});
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Deno.test(async function readableStreamWithEmptyChunkOneByOne() {
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const rid = resourceForReadableStream(emptyChunkStream());
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assertEquals(1, await core.read(rid, new Uint8Array(1)));
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assertEquals(1, await core.read(rid, new Uint8Array(1)));
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assertEquals(0, await core.read(rid, new Uint8Array(1)));
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core.close(rid);
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});
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// Ensure that we correctly transmit all the sub-chunks of the larger chunks.
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Deno.test(async function readableStreamReadSmallerChunks() {
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const packetSize = 16 * 1024;
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const rid = resourceForReadableStream(largePacketStream(packetSize, 1));
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const buffer = new Uint8Array(packetSize);
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for (let i = 0; i < packetSize / 1024; i++) {
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await core.read(rid, buffer.subarray(i * 1024, i * 1024 + 1024));
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}
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for (let i = 0; i < 256; i++) {
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assertEquals(
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i,
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buffer[i * (packetSize / 256)],
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`at index ${i * (packetSize / 256)}`,
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);
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}
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core.close(rid);
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});
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Deno.test(async function readableStreamLargePackets() {
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const packetSize = 128 * 1024;
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const rid = resourceForReadableStream(largePacketStream(packetSize, 1024));
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for (let i = 0; i < 1024; i++) {
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const buffer = new Uint8Array(packetSize);
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assertEquals(packetSize, await core.read(rid, buffer));
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for (let i = 0; i < 256; i++) {
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assertEquals(
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i,
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buffer[i * (packetSize / 256)],
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`at index ${i * (packetSize / 256)}`,
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);
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}
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}
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assertEquals(0, await core.read(rid, new Uint8Array(1)));
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core.close(rid);
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});
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Deno.test(async function readableStreamVeryLargePackets() {
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// 1024 packets of 1MB
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const rid = resourceForReadableStream(largePacketStream(1024 * 1024, 1024));
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let total = 0;
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// Read 96kB up to 12,288 times (96kB is not an even multiple of the 1MB packet size to test this)
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const readCounts: Record<number, number> = {};
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for (let i = 0; i < 12 * 1024; i++) {
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const nread = await core.read(rid, new Uint8Array(96 * 1024));
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total += nread;
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readCounts[nread] = (readCounts[nread] || 0) + 1;
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if (nread == 0) {
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break;
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}
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}
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assertEquals({ 0: 1, 65536: 1024, 98304: 10 * 1024 }, readCounts);
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assertEquals(total, 1024 * 1024 * 1024);
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core.close(rid);
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});
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for (const count of [0, 1, 2, 3]) {
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for (const delay of [0, 1, 10]) {
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// Creating a stream that errors in start will throw
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if (delay > 0) {
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createStreamTest(count, delay, "Throw");
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}
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createStreamTest(count, delay, "Close");
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}
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}
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function createStreamTest(
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count: number,
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delay: number,
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action: "Throw" | "Close",
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) {
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Deno.test(`streamCount${count}Delay${delay}${action}`, async () => {
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let rid;
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try {
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rid = resourceForReadableStream(
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makeStreamWithCount(count, delay, action),
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);
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for (let i = 0; i < count; i++) {
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const buffer = new Uint8Array(1);
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await core.read(rid, buffer);
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}
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if (action == "Throw") {
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try {
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const buffer = new Uint8Array(1);
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assertEquals(1, await core.read(rid, buffer));
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fail();
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} catch (e) {
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// We expect this to be thrown
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assertEquals(e.message, "Expected error!");
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}
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} else {
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const buffer = new Uint8Array(1);
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assertEquals(0, await core.read(rid, buffer));
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}
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} finally {
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core.close(rid);
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}
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});
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}
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// 1024 is the size of the internal packet buffer -- we want to make sure we fill the internal pipe fully.
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for (const packetCount of [1, 1024]) {
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Deno.test(`readableStreamWithAggressiveResourceClose_${packetCount}`, async function () {
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let first = true;
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const { promise, resolve } = Promise.withResolvers();
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const rid = resourceForReadableStream(
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new ReadableStream({
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pull(controller) {
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if (first) {
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// We queue this up and then immediately close the resource (not the reader)
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for (let i = 0; i < packetCount; i++) {
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controller.enqueue(new Uint8Array(1));
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}
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core.close(rid);
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// This doesn't throw, even though the resource is closed
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controller.enqueue(new Uint8Array(1));
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first = false;
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}
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},
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cancel(reason) {
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resolve(reason);
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},
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}),
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);
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try {
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for (let i = 0; i < packetCount; i++) {
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await core.read(rid, new Uint8Array(1));
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}
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fail();
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} catch (e) {
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assertEquals(e.message, "operation canceled");
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}
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assertEquals(await promise, "resource closed");
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});
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}
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Deno.test(async function compressionStreamWritableMayBeAborted() {
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await Promise.all([
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new CompressionStream("gzip").writable.getWriter().abort(),
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new CompressionStream("deflate").writable.getWriter().abort(),
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new CompressionStream("deflate-raw").writable.getWriter().abort(),
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]);
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});
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Deno.test(async function compressionStreamReadableMayBeCancelled() {
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await Promise.all([
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new CompressionStream("gzip").readable.getReader().cancel(),
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new CompressionStream("deflate").readable.getReader().cancel(),
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new CompressionStream("deflate-raw").readable.getReader().cancel(),
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]);
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});
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Deno.test(async function decompressionStreamWritableMayBeAborted() {
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await Promise.all([
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new DecompressionStream("gzip").writable.getWriter().abort(),
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new DecompressionStream("deflate").writable.getWriter().abort(),
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new DecompressionStream("deflate-raw").writable.getWriter().abort(),
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]);
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});
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Deno.test(async function decompressionStreamReadableMayBeCancelled() {
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await Promise.all([
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new DecompressionStream("gzip").readable.getReader().cancel(),
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new DecompressionStream("deflate").readable.getReader().cancel(),
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new DecompressionStream("deflate-raw").readable.getReader().cancel(),
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]);
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});
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Deno.test(async function decompressionStreamValidGzipDoesNotThrow() {
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const cs = new CompressionStream("gzip");
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const ds = new DecompressionStream("gzip");
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cs.readable.pipeThrough(ds);
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const writer = cs.writable.getWriter();
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await writer.write(new Uint8Array([1]));
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writer.releaseLock();
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await cs.writable.close();
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let result = new Uint8Array();
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for await (const chunk of ds.readable.values()) {
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result = new Uint8Array([...result, ...chunk]);
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}
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assertEquals(result, new Uint8Array([1]));
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});
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Deno.test(async function decompressionStreamInvalidGzipStillReported() {
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await assertRejects(
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async () => {
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|
await new DecompressionStream("gzip").writable.close();
|
|
},
|
|
TypeError,
|
|
"corrupt gzip stream does not have a matching checksum",
|
|
);
|
|
});
|