std/tar/tar_stream_test.ts
Asher Gomez b05acd6570
feat(tar/unstable): @std/tar (#5905)
* feat(tar/unstable): `@std/tar`

* fix

* edit
2024-09-04 18:28:07 +10:00

357 lines
9.8 KiB
TypeScript

// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
import {
assertValidTarStreamOptions,
TarStream,
type TarStreamInput,
} from "./tar_stream.ts";
import { assertEquals, assertRejects, assertThrows } from "../assert/mod.ts";
import { UntarStream } from "./untar_stream.ts";
import { concat } from "../bytes/mod.ts";
Deno.test("TarStream() with default stream", async () => {
const text = new TextEncoder().encode("Hello World!");
const reader = ReadableStream.from<TarStreamInput>([
{
type: "directory",
path: "./potato",
},
{
type: "file",
path: "./text.txt",
size: text.length,
readable: ReadableStream.from([text.slice()]),
},
])
.pipeThrough(new TarStream())
.getReader();
let size = 0;
const data: Uint8Array[] = [];
while (true) {
const { done, value } = await reader.read();
if (done) {
break;
}
size += value.length;
data.push(value);
}
assertEquals(size, 512 + 512 + Math.ceil(text.length / 512) * 512 + 1024);
assertEquals(
text,
concat(data).slice(
512 + // Slicing off ./potato header
512, // Slicing off ./text.txt header
-1024, // Slicing off 1024 bytes of end padding
)
.slice(0, text.length), // Slice off padding added to text to make it divisible by 512
);
});
Deno.test("TarStream() with byte stream", async () => {
const text = new TextEncoder().encode("Hello World!");
const reader = ReadableStream.from<TarStreamInput>([
{
type: "directory",
path: "./potato",
},
{
type: "file",
path: "./text.txt",
size: text.length,
readable: ReadableStream.from([text.slice()]),
},
])
.pipeThrough(new TarStream())
.getReader({ mode: "byob" });
let size = 0;
const data: Uint8Array[] = [];
while (true) {
const { done, value } = await reader.read(
new Uint8Array(Math.ceil(Math.random() * 1024)),
);
if (done) {
break;
}
size += value.length;
data.push(value);
}
assertEquals(size, 512 + 512 + Math.ceil(text.length / 512) * 512 + 1024);
assertEquals(
text,
concat(data).slice(
512 + // Slicing off ./potato header
512, // Slicing off ./text.txt header
-1024, // Slicing off 1024 bytes of end padding
)
.slice(0, text.length), // Slice off padding added to text to make it divisible by 512
);
});
Deno.test("TarStream() with negative size", async () => {
const text = new TextEncoder().encode("Hello World");
const readable = ReadableStream.from<TarStreamInput>([
{
type: "file",
path: "name",
size: -text.length,
readable: ReadableStream.from([text.slice()]),
},
])
.pipeThrough(new TarStream());
await assertRejects(
() => Array.fromAsync(readable),
RangeError,
"Cannot add to the tar archive: The size cannot exceed 64 Gibs",
);
});
Deno.test("TarStream() with 65 GiB size", async () => {
const size = 1024 ** 3 * 65;
const step = 1024; // Size must equally be divisible by step
const iterable = function* () {
for (let i = 0; i < size; i += step) {
yield new Uint8Array(step).map(() => Math.floor(Math.random() * 256));
}
}();
const readable = ReadableStream.from<TarStreamInput>([
{
type: "file",
path: "name",
size,
readable: ReadableStream.from(iterable),
},
])
.pipeThrough(new TarStream());
await assertRejects(
() => Array.fromAsync(readable),
RangeError,
"Cannot add to the tar archive: The size cannot exceed 64 Gibs",
);
});
Deno.test("TarStream() with NaN size", async () => {
const size = NaN;
const step = 1024; // Size must equally be divisible by step
const iterable = function* () {
for (let i = 0; i < size; i += step) {
yield new Uint8Array(step).map(() => Math.floor(Math.random() * 256));
}
}();
const readable = ReadableStream.from<TarStreamInput>([
{
type: "file",
path: "name",
size,
readable: ReadableStream.from(iterable),
},
])
.pipeThrough(new TarStream());
await assertRejects(
() => Array.fromAsync(readable),
RangeError,
"Cannot add to the tar archive: The size cannot exceed 64 Gibs",
);
});
Deno.test("parsePath()", async () => {
const readable = ReadableStream.from<TarStreamInput>([
{
type: "directory",
path:
"./Veeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeery/LongPath",
},
{
type: "directory",
path:
"./some random path/with/loooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooong/path",
},
{
type: "directory",
path:
"./some random path/with/loooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooong/file",
},
{
type: "directory",
path:
"./some random path/with/loooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooong/file",
},
])
.pipeThrough(new TarStream())
.pipeThrough(new UntarStream());
const output = [
"./Veeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeery/LongPath",
"./some random path/with/loooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooong/path",
"./some random path/with/loooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooong/file",
"./some random path/with/loooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooong/file",
];
for await (const tarEntry of readable) {
assertEquals(tarEntry.path, output.shift());
tarEntry.readable?.cancel();
}
});
Deno.test("validTarStreamOptions()", () => {
assertValidTarStreamOptions({});
assertValidTarStreamOptions({ mode: 0 });
assertThrows(
() => assertValidTarStreamOptions({ mode: 8 }),
TypeError,
"Invalid Mode provided",
);
assertThrows(
() => assertValidTarStreamOptions({ mode: 1111111 }),
TypeError,
"Invalid Mode provided",
);
assertValidTarStreamOptions({ uid: 0 });
assertThrows(
() => assertValidTarStreamOptions({ uid: 8 }),
TypeError,
"Invalid UID provided",
);
assertThrows(
() => assertValidTarStreamOptions({ uid: 1111111 }),
TypeError,
"Invalid UID provided",
);
assertValidTarStreamOptions({ gid: 0 });
assertThrows(
() => assertValidTarStreamOptions({ gid: 8 }),
TypeError,
"Invalid GID provided",
);
assertThrows(
() => assertValidTarStreamOptions({ gid: 1111111 }),
TypeError,
"Invalid GID provided",
);
assertValidTarStreamOptions({ mtime: 0 });
assertThrows(
() => assertValidTarStreamOptions({ mtime: NaN }),
TypeError,
"Invalid MTime provided",
);
assertValidTarStreamOptions({
mtime: Math.floor(new Date().getTime() / 1000),
});
assertThrows(
() => assertValidTarStreamOptions({ mtime: new Date().getTime() }),
TypeError,
"Invalid MTime provided",
);
assertValidTarStreamOptions({ uname: "" });
assertValidTarStreamOptions({ uname: "abcdef" });
assertThrows(
() => assertValidTarStreamOptions({ uname: "å-abcdef" }),
TypeError,
"Invalid UName provided",
);
assertThrows(
() => assertValidTarStreamOptions({ uname: "a".repeat(100) }),
TypeError,
"Invalid UName provided",
);
assertValidTarStreamOptions({ gname: "" });
assertValidTarStreamOptions({ gname: "abcdef" });
assertThrows(
() => assertValidTarStreamOptions({ gname: "å-abcdef" }),
TypeError,
"Invalid GName provided",
);
assertThrows(
() => assertValidTarStreamOptions({ gname: "a".repeat(100) }),
TypeError,
"Invalid GName provided",
);
assertValidTarStreamOptions({ devmajor: "" });
assertValidTarStreamOptions({ devmajor: "1234" });
assertThrows(
() => assertValidTarStreamOptions({ devmajor: "123456789" }),
TypeError,
"Invalid DevMajor provided",
);
assertValidTarStreamOptions({ devminor: "" });
assertValidTarStreamOptions({ devminor: "1234" });
assertThrows(
() => assertValidTarStreamOptions({ devminor: "123456789" }),
TypeError,
"Invalid DevMinor provided",
);
});
Deno.test("TarStream() with invalid options", async () => {
const readable = ReadableStream.from<TarStreamInput>([
{ type: "directory", path: "potato", options: { mode: 9 } },
]).pipeThrough(new TarStream());
await assertRejects(
() => Array.fromAsync(readable),
TypeError,
"Invalid Mode provided",
);
});
Deno.test("TarStream() with mismatching sizes", async () => {
const text = new TextEncoder().encode("Hello World!");
const readable = ReadableStream.from<TarStreamInput>([
{
type: "file",
path: "potato",
size: text.length + 1,
readable: ReadableStream.from([text.slice()]),
},
]).pipeThrough(new TarStream());
await assertRejects(
() => Array.fromAsync(readable),
RangeError,
"Cannot add to the tar archive: The provided size (13) did not match bytes read from provided readable (12)",
);
});
Deno.test("parsePath() with too long path", async () => {
const readable = ReadableStream.from<TarStreamInput>([{
type: "directory",
path: "0".repeat(300),
}])
.pipeThrough(new TarStream());
await assertRejects(
() => Array.fromAsync(readable),
RangeError,
"Cannot parse the path as the path length cannot exceed 256 bytes: The path length is 300",
);
});
Deno.test("parsePath() with too long path", async () => {
const readable = ReadableStream.from<TarStreamInput>([{
type: "directory",
path: "0".repeat(160) + "/",
}])
.pipeThrough(new TarStream());
await assertRejects(
() => Array.fromAsync(readable),
TypeError,
"Cannot parse the path as the path needs to be split-able on a forward slash separator into [155, 100] bytes respectively",
);
});