deno.land / std@0.224.0 / archive / untar_test.ts
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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 Buffer(file.content), contentSize: file.content.byteLength, }; } else { options = { filePath: file.filePath }; }
await tar.append(file.name, options); }
return tar;}
Deno.test("Untar() works as an async iterator", async () => { 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 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("Untar() reads without body", async () => { 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( "Untar() reads without body from FileReader", async () => { 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); using file = await Deno.open(outputFile, { create: true, write: true }); await copy(tar.getReader(), file);
using 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); }
await Deno.remove(outputFile); assertEquals(entries.length, 0); },);
Deno.test("Untar() reads from FileReader", async () => { 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); using file = await Deno.open(outputFile, { create: true, write: true }); await copy(tar.getReader(), file);
using 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 readAll(entry)); assertEquals(expected.name, entry.fileName); }
await Deno.remove(outputFile); assertEquals(entries.length, 0);});
Deno.test( "Untar() reads less than record size", async () => { // 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: checksum 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 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("Untar() works with Linux generated tar", async () => { const filePath = resolve(testdataDir, "deno.tar"); using file = await Deno.open(filePath, { read: true });
type ExpectedEntry = TarMeta & { content?: Uint8Array };
const expectedEntries: ExpectedEntry[] = [ { 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 readAll(entry)); } }});
Deno.test({ name: "TarEntry() handles meta", // only: true, fn() { // test TarEntry class assertExists(TarEntry); // Test TarEntry type const bufSizes = [1, 53, 256, 511]; const header: TarHeader = { fileName: new Uint8Array(bufSizes), fileMode: new Uint8Array(bufSizes), uid: new Uint8Array(bufSizes), gid: new Uint8Array(bufSizes), fileSize: new Uint8Array(bufSizes), mtime: new Uint8Array(bufSizes), checksum: new Uint8Array(bufSizes), type: new Uint8Array(bufSizes), linkName: new Uint8Array(bufSizes), ustar: new Uint8Array(bufSizes), owner: new Uint8Array(bufSizes), group: new Uint8Array(bufSizes), majorNumber: new Uint8Array(bufSizes), minorNumber: new Uint8Array(bufSizes), fileNamePrefix: new Uint8Array(bufSizes), padding: new Uint8Array(bufSizes), }; const content = new TextEncoder().encode("hello tar world!"); const reader = new Buffer(content); const tarMeta = { fileName: "archive/", fileSize: 0, fileMode: 509, mtime: 1591800767, uid: 1001, gid: 1001, owner: "deno", group: "deno", type: "directory", }; const tarEntry: TarEntry = new TarEntry(tarMeta, header, reader); assertExists(tarEntry); },});
Deno.test("Untar() handles archive with link", async function () { const filePath = resolve(testdataDir, "with_link.tar"); using file = await Deno.open(filePath, { read: true });
type ExpectedEntry = TarMetaWithLinkName & { content?: Uint8Array };
const expectedEntries: ExpectedEntry[] = [ { fileName: "hello.txt", fileMode: 436, fileSize: 14, mtime: 1696384910, uid: 1000, gid: 1000, owner: "user", group: "user", type: "file", content: new TextEncoder().encode("Hello World!\n\n"), }, { fileName: "link_to_hello.txt", linkName: "./hello.txt", fileMode: 511, fileSize: 0, mtime: 1696384945, uid: 1000, gid: 1000, owner: "user", group: "user", type: "symlink", }, ];
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 readAll(entry)); } }});
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