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denoland-deno/std/archive/tar_test.ts
2020-10-19 13:33:51 +02:00

435 lines
11 KiB
TypeScript

// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
/**
* Tar test
*
* **test summary**
* - create a tar archive in memory containing output.txt and dir/tar.ts.
* - read and deflate a tar archive containing output.txt
*
* **to run this test**
* deno run --allow-read archive/tar_test.ts
*/
import { assert, assertEquals } from "../testing/asserts.ts";
import { dirname, fromFileUrl, resolve } from "../path/mod.ts";
import { Tar, Untar } from "./tar.ts";
const moduleDir = dirname(fromFileUrl(import.meta.url));
const testdataDir = resolve(moduleDir, "testdata");
const filePath = resolve(testdataDir, "example.txt");
interface TestEntry {
name: string;
content?: Uint8Array;
filePath?: string;
}
async function createTar(entries: TestEntry[]): Promise<Tar> {
const tar = new Tar();
// put data on memory
for (const file of entries) {
let options;
if (file.content) {
options = {
reader: new Deno.Buffer(file.content),
contentSize: file.content.byteLength,
};
} else {
options = { filePath: file.filePath };
}
await tar.append(file.name, options);
}
return tar;
}
Deno.test("createTarArchive", async function (): Promise<void> {
// initialize
const tar = new Tar();
// put data on memory
const content = new TextEncoder().encode("hello tar world!");
await tar.append("output.txt", {
reader: new Deno.Buffer(content),
contentSize: content.byteLength,
});
// put a file
await tar.append("dir/tar.ts", { filePath });
// write tar data to a buffer
const writer = new Deno.Buffer();
const wrote = await Deno.copy(tar.getReader(), writer);
/**
* 3072 = 512 (header) + 512 (content) + 512 (header) + 512 (content)
* + 1024 (footer)
*/
assertEquals(wrote, 3072);
});
Deno.test("deflateTarArchive", async function (): Promise<void> {
const fileName = "output.txt";
const text = "hello tar world!";
// create a tar archive
const tar = new Tar();
const content = new TextEncoder().encode(text);
await tar.append(fileName, {
reader: new Deno.Buffer(content),
contentSize: content.byteLength,
});
// read data from a tar archive
const untar = new Untar(tar.getReader());
const result = await untar.extract();
assert(result !== null);
const untarText = new TextDecoder("utf-8").decode(await Deno.readAll(result));
assertEquals(await untar.extract(), null); // EOF
// tests
assertEquals(result.fileName, fileName);
assertEquals(untarText, text);
});
Deno.test("appendFileWithLongNameToTarArchive", async function (): Promise<
void
> {
// 9 * 15 + 13 = 148 bytes
const fileName = new Array(10).join("long-file-name/") + "file-name.txt";
const text = "hello tar world!";
// create a tar archive
const tar = new Tar();
const content = new TextEncoder().encode(text);
await tar.append(fileName, {
reader: new Deno.Buffer(content),
contentSize: content.byteLength,
});
// read data from a tar archive
const untar = new Untar(tar.getReader());
const result = await untar.extract();
assert(result !== null);
assert(!result.consumed);
const untarText = new TextDecoder("utf-8").decode(await Deno.readAll(result));
assert(result.consumed);
// tests
assertEquals(result.fileName, fileName);
assertEquals(untarText, text);
});
Deno.test("untarAsyncIterator", async function (): Promise<void> {
const entries: TestEntry[] = [
{
name: "output.txt",
content: new TextEncoder().encode("hello tar world!"),
},
{
name: "dir/tar.ts",
filePath,
},
];
const tar = await createTar(entries);
// read data from a tar archive
const untar = new Untar(tar.getReader());
let lastEntry;
for await (const entry of untar) {
const expected = entries.shift();
assert(expected);
let content = expected.content;
if (expected.filePath) {
content = await Deno.readFile(expected.filePath);
}
assertEquals(content, await Deno.readAll(entry));
assertEquals(expected.name, entry.fileName);
if (lastEntry) assert(lastEntry.consumed);
lastEntry = entry;
}
assert(lastEntry);
assert(lastEntry.consumed);
assertEquals(entries.length, 0);
});
Deno.test("untarAsyncIteratorWithoutReadingBody", async function (): Promise<
void
> {
const entries: TestEntry[] = [
{
name: "output.txt",
content: new TextEncoder().encode("hello tar world!"),
},
{
name: "dir/tar.ts",
filePath,
},
];
const tar = await createTar(entries);
// read data from a tar archive
const untar = new Untar(tar.getReader());
for await (const entry of untar) {
const expected = entries.shift();
assert(expected);
assertEquals(expected.name, entry.fileName);
}
assertEquals(entries.length, 0);
});
Deno.test(
"untarAsyncIteratorWithoutReadingBodyFromFileReader",
async function (): Promise<void> {
const entries: TestEntry[] = [
{
name: "output.txt",
content: new TextEncoder().encode("hello tar world!"),
},
{
name: "dir/tar.ts",
filePath,
},
];
const outputFile = resolve(testdataDir, "test.tar");
const tar = await createTar(entries);
const file = await Deno.open(outputFile, { create: true, write: true });
await Deno.copy(tar.getReader(), file);
file.close();
const reader = await Deno.open(outputFile, { read: true });
// read data from a tar archive
const untar = new Untar(reader);
for await (const entry of untar) {
const expected = entries.shift();
assert(expected);
assertEquals(expected.name, entry.fileName);
}
reader.close();
await Deno.remove(outputFile);
assertEquals(entries.length, 0);
},
);
Deno.test("untarAsyncIteratorFromFileReader", async function (): Promise<void> {
const entries: TestEntry[] = [
{
name: "output.txt",
content: new TextEncoder().encode("hello tar world!"),
},
{
name: "dir/tar.ts",
filePath,
},
];
const outputFile = resolve(testdataDir, "test.tar");
const tar = await createTar(entries);
const file = await Deno.open(outputFile, { create: true, write: true });
await Deno.copy(tar.getReader(), file);
file.close();
const reader = await Deno.open(outputFile, { read: true });
// read data from a tar archive
const untar = new Untar(reader);
for await (const entry of untar) {
const expected = entries.shift();
assert(expected);
let content = expected.content;
if (expected.filePath) {
content = await Deno.readFile(expected.filePath);
}
assertEquals(content, await Deno.readAll(entry));
assertEquals(expected.name, entry.fileName);
}
reader.close();
await Deno.remove(outputFile);
assertEquals(entries.length, 0);
});
Deno.test(
"untarAsyncIteratorReadingLessThanRecordSize",
async function (): Promise<void> {
// record size is 512
const bufSizes = [1, 53, 256, 511];
for (const bufSize of bufSizes) {
const entries: TestEntry[] = [
{
name: "output.txt",
content: new TextEncoder().encode("hello tar world!".repeat(100)),
},
// Need to test at least two files, to make sure the first entry doesn't over-read
// Causing the next to fail with: chesum error
{
name: "deni.txt",
content: new TextEncoder().encode("deno!".repeat(250)),
},
];
const tar = await createTar(entries);
// read data from a tar archive
const untar = new Untar(tar.getReader());
for await (const entry of untar) {
const expected = entries.shift();
assert(expected);
assertEquals(expected.name, entry.fileName);
const writer = new Deno.Buffer();
while (true) {
const buf = new Uint8Array(bufSize);
const n = await entry.read(buf);
if (n === null) break;
await writer.write(buf.subarray(0, n));
}
assertEquals(writer.bytes(), expected!.content);
}
assertEquals(entries.length, 0);
}
},
);
Deno.test("untarLinuxGeneratedTar", async function (): Promise<void> {
const filePath = resolve(testdataDir, "deno.tar");
const file = await Deno.open(filePath, { read: true });
const expectedEntries = [
{
fileName: "archive/",
fileSize: 0,
fileMode: 509,
mtime: 1591800767,
uid: 1001,
gid: 1001,
owner: "deno",
group: "deno",
type: "directory",
},
{
fileName: "archive/deno/",
fileSize: 0,
fileMode: 509,
mtime: 1591799635,
uid: 1001,
gid: 1001,
owner: "deno",
group: "deno",
type: "directory",
},
{
fileName: "archive/deno/land/",
fileSize: 0,
fileMode: 509,
mtime: 1591799660,
uid: 1001,
gid: 1001,
owner: "deno",
group: "deno",
type: "directory",
},
{
fileName: "archive/deno/land/land.txt",
fileMode: 436,
fileSize: 5,
mtime: 1591799660,
uid: 1001,
gid: 1001,
owner: "deno",
group: "deno",
type: "file",
content: new TextEncoder().encode("land\n"),
},
{
fileName: "archive/file.txt",
fileMode: 436,
fileSize: 5,
mtime: 1591799626,
uid: 1001,
gid: 1001,
owner: "deno",
group: "deno",
type: "file",
content: new TextEncoder().encode("file\n"),
},
{
fileName: "archive/deno.txt",
fileMode: 436,
fileSize: 5,
mtime: 1591799642,
uid: 1001,
gid: 1001,
owner: "deno",
group: "deno",
type: "file",
content: new TextEncoder().encode("deno\n"),
},
];
const untar = new Untar(file);
for await (const entry of untar) {
const expected = expectedEntries.shift();
assert(expected);
const content = expected.content;
delete expected.content;
assertEquals(entry, expected);
if (content) {
assertEquals(content, await Deno.readAll(entry));
}
}
file.close();
});
Deno.test("directoryEntryType", async function (): Promise<void> {
const tar = new Tar();
tar.append("directory/", {
reader: new Deno.Buffer(),
contentSize: 0,
type: "directory",
});
const filePath = resolve(testdataDir);
tar.append("archive/testdata/", {
filePath,
});
const outputFile = resolve(testdataDir, "directory_type_test.tar");
const file = await Deno.open(outputFile, { create: true, write: true });
await Deno.copy(tar.getReader(), file);
await file.close();
const reader = await Deno.open(outputFile, { read: true });
const untar = new Untar(reader);
for await (const entry of untar) {
assertEquals(entry.type, "directory");
}
await reader.close();
await Deno.remove(outputFile);
});