test_BackupService_archive.js

mozilla-central/browser/components/backup/tests/xpcshell/test_BackupService_archive.js (file symbol)

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Test Info: Warnings

This test gets skipped with pattern: os == 'android'
Manifest: browser/components/backup/tests/xpcshell/xpcshell.toml

/* Any copyright is dedicated to the Public Domain.

https://creativecommons.org/publicdomain/zero/1.0/ */

"use strict";

const { ArchiveEncryptionState } = ChromeUtils.importESModule(

  "resource:///modules/backup/ArchiveEncryptionState.sys.mjs"

);

const { ArchiveUtils } = ChromeUtils.importESModule(

  "resource:///modules/backup/ArchiveUtils.sys.mjs"

);

const { ArchiveDecryptor } = ChromeUtils.importESModule(

  "resource:///modules/backup/ArchiveEncryption.sys.mjs"

);

const { DecoderDecryptorTransformer, FileWriterStream } =

  ChromeUtils.importESModule(

    "resource:///modules/backup/BackupService.sys.mjs"

);

let testProfilePath;

let fakeCompressedStagingPath;

let archiveTemplateFile = do_get_file("data/test_archive.template.html");

let archiveTemplateURI = Services.io.newFileURI(archiveTemplateFile).spec;

const SIZE_IN_BYTES = 125123;

let fakeBytes;

async function assertExtractionsMatch(extractionPath) {

  let writtenBytes = await IOUtils.read(extractionPath);

  assertUint8ArraysSimilarity(

    writtenBytes,

    fakeBytes,

    true /* expectSimilar */

);

add_setup(async () => {

  testProfilePath = await IOUtils.createUniqueDirectory(

    PathUtils.tempDir,

    "testCreateArchive"

);

  fakeCompressedStagingPath = PathUtils.join(

    testProfilePath,

    "fake-compressed-staging.zip"

);

  // Let's create a large chunk of nonsense data that we can pretend is the

  // compressed archive just to make sure that we can get it back out again.

  // Instead of putting a large file inside of version control, we

  // deterministically generate some nonsense data inside of a Uint8Array to

  // encode. Generating the odd positive integer sequence seems like a decent

  // enough mechanism for deterministically generating nonsense data. We ensure

  // that the number of bytes written is not a multiple of 6 so that we can

  // ensure that base64 padding is working.

  fakeBytes = new Uint8Array(SIZE_IN_BYTES);

  // seededRandomNumberGenerator is defined in head.js, but eslint doesn't seem

  // happy about it. Maybe that's because it's a generator function.

  // eslint-disable-next-line no-undef

  let gen = seededRandomNumberGenerator();

  for (let i = 0; i < SIZE_IN_BYTES; ++i) {

    fakeBytes.set(gen.next().value, i);

  await IOUtils.write(fakeCompressedStagingPath, fakeBytes);

  OSKeyStoreTestUtils.setup();

  registerCleanupFunction(async () => {

    await OSKeyStoreTestUtils.cleanup();

    await IOUtils.remove(testProfilePath, { recursive: true });

});

});

/**

 * Tests that a single-file archive can be created from some file on the

 * file system and not be encrypted. This is a bit more integration-y, since

 * it's also testing the Archive.worker.mjs script - but that script is

 * basically an extension of createArchive that lets it operate off of the

 * main thread.

*/

add_task(async function test_createArchive_unencrypted() {

  let bs = new BackupService();

  const FAKE_ARCHIVE_PATH = PathUtils.join(

    testProfilePath,

    "fake-unencrypted-archive.html"

);

  await bs.createArchive(

    FAKE_ARCHIVE_PATH,

    archiveTemplateURI,

    fakeCompressedStagingPath,

    null /* no ArchiveEncryptionState */,

    FAKE_METADATA

);

  let { isEncrypted, archiveJSON } = await bs.sampleArchive(FAKE_ARCHIVE_PATH);

  Assert.ok(!isEncrypted, "Should not be considered encrypted.");

  Assert.deepEqual(

    archiveJSON.meta,

    FAKE_METADATA,

    "Metadata was encoded in the archive JSON block."

);

  const EXTRACTION_PATH = PathUtils.join(testProfilePath, "extraction.bin");

  await bs.extractCompressedSnapshotFromArchive(

    FAKE_ARCHIVE_PATH,

    EXTRACTION_PATH

);

  assertExtractionsMatch(EXTRACTION_PATH);

  await IOUtils.remove(FAKE_ARCHIVE_PATH);

  await IOUtils.remove(EXTRACTION_PATH);

});

/**

 * Tests that a single-file archive can be created from some file on the

 * file system and be encrypted and decrypted. This is a bit more integration-y,

 * since it's also testing the Archive.worker.mjs script - but that script is

 * basically an extension of createArchive that lets it operate off of the

 * main thread.

*/

add_task(async function test_createArchive_encrypted() {

  const TEST_RECOVERY_CODE = "This is some recovery code.";

  let bs = new BackupService();

  let { instance: encState } = await ArchiveEncryptionState.initialize(

    TEST_RECOVERY_CODE

);

  const FAKE_ARCHIVE_PATH = PathUtils.join(

    testProfilePath,

    "fake-encrypted-archive.html"

);

  await bs.createArchive(

    FAKE_ARCHIVE_PATH,

    archiveTemplateURI,

    fakeCompressedStagingPath,

    encState,

    FAKE_METADATA

);

  let { isEncrypted, archiveJSON } = await bs.sampleArchive(FAKE_ARCHIVE_PATH);

  Assert.ok(isEncrypted, "Should be considered encrypted.");

  Assert.deepEqual(

    archiveJSON.meta,

    FAKE_METADATA,

    "Metadata was encoded in the archive JSON block."

);

  const EXTRACTION_PATH = PathUtils.join(testProfilePath, "extraction.bin");

  // This should fail, since the archive is encrypted.

  await Assert.rejects(

    bs.extractCompressedSnapshotFromArchive(FAKE_ARCHIVE_PATH, EXTRACTION_PATH),

    /recovery code is required/

);

  await bs.extractCompressedSnapshotFromArchive(

    FAKE_ARCHIVE_PATH,

    EXTRACTION_PATH,

    TEST_RECOVERY_CODE

);

  assertExtractionsMatch(EXTRACTION_PATH);

  await IOUtils.remove(FAKE_ARCHIVE_PATH);

  await IOUtils.remove(EXTRACTION_PATH);

});

/**

 * Tests that an archive can be created where the bytes of the archive are

 * a multiple of 6, but the individual chunks of those bytes are not a multiple

 * of 6 (which will necessitate base64 padding).

*/

add_task(async function test_createArchive_multiple_of_six_test() {

  let bs = new BackupService();

  const FAKE_ARCHIVE_PATH = PathUtils.join(

    testProfilePath,

    "fake-unencrypted-archive.html"

);

  const FAKE_COMPRESSED_FILE = PathUtils.join(

    testProfilePath,

    "fake-compressed-staging-mul6.zip"

);

  // Instead of generating a gigantic chunk of data to test this particular

  // case, we'll override the default chunk size. We'll choose a chunk size of

  // 500 bytes, which doesn't divide evenly by 6 - but we'll encode a set of

  // 6 * 500 bytes, which will naturally divide evenly by 6.

  const NOT_MULTIPLE_OF_SIX_OVERRIDE_CHUNK_SIZE = 500;

  const MULTIPLE_OF_SIX_SIZE_IN_BYTES = 6 * 500;

  let multipleOfSixBytes = new Uint8Array(MULTIPLE_OF_SIX_SIZE_IN_BYTES);

  // seededRandomNumberGenerator is defined in head.js, but eslint doesn't seem

  // happy about it. Maybe that's because it's a generator function.

  // eslint-disable-next-line no-undef

  let gen = seededRandomNumberGenerator();

  for (let i = 0; i < MULTIPLE_OF_SIX_SIZE_IN_BYTES; ++i) {

    multipleOfSixBytes.set(gen.next().value, i);

  await IOUtils.write(FAKE_COMPRESSED_FILE, multipleOfSixBytes);

  await bs.createArchive(

    FAKE_ARCHIVE_PATH,

    archiveTemplateURI,

    FAKE_COMPRESSED_FILE,

    null /* no ArchiveEncryptionState */,

    FAKE_METADATA,

      chunkSize: NOT_MULTIPLE_OF_SIX_OVERRIDE_CHUNK_SIZE,

);

  const EXTRACTION_PATH = PathUtils.join(testProfilePath, "extraction.bin");

  await bs.extractCompressedSnapshotFromArchive(

    FAKE_ARCHIVE_PATH,

    EXTRACTION_PATH

);

  let writtenBytes = await IOUtils.read(EXTRACTION_PATH);

  assertUint8ArraysSimilarity(

    writtenBytes,

    multipleOfSixBytes,

    true /* expectSimilar */

);

  await maybeRemovePath(FAKE_COMPRESSED_FILE);

  await maybeRemovePath(FAKE_ARCHIVE_PATH);

  await maybeRemovePath(EXTRACTION_PATH);

});

/**

 * Tests that if an encrypted single-file archive has had its binary blob

 * truncated that the decryption fails and the recovery.zip file is

 * automatically destroyed.

*/

add_task(async function test_createArchive_encrypted_truncated() {

  const TEST_RECOVERY_CODE = "This is some recovery code.";

  let bs = new BackupService();

  let { instance: encState } = await ArchiveEncryptionState.initialize(

    TEST_RECOVERY_CODE

);

  const FAKE_ARCHIVE_PATH = PathUtils.join(

    testProfilePath,

    "fake-encrypted-archive.html"

);

  const FAKE_COMPRESSED_FILE = PathUtils.join(

    testProfilePath,

    "fake-compressed-staging-large.zip"

);

  const MULTIPLE_OF_MAX_CHUNK_SIZE =

    2 * ArchiveUtils.ARCHIVE_CHUNK_MAX_BYTES_SIZE;

  let multipleOfMaxChunkSizeBytes = new Uint8Array(MULTIPLE_OF_MAX_CHUNK_SIZE);

  // seededRandomNumberGenerator is defined in head.js, but eslint doesn't seem

  // happy about it. Maybe that's because it's a generator function.

  // eslint-disable-next-line no-undef

  let gen = seededRandomNumberGenerator();

  for (let i = 0; i < MULTIPLE_OF_MAX_CHUNK_SIZE; ++i) {

    multipleOfMaxChunkSizeBytes.set(gen.next().value, i);

  await IOUtils.write(FAKE_COMPRESSED_FILE, multipleOfMaxChunkSizeBytes);

  await bs.createArchive(

    FAKE_ARCHIVE_PATH,

    archiveTemplateURI,

    FAKE_COMPRESSED_FILE,

    encState,

    FAKE_METADATA

);

  // This is a little bit gross - we're going to read out the data from the

  // generated file, find the last line longer than ARCHIVE_CHUNK_MAX_BYTES_SIZE

  // (which should be the last base64 encoded value), and then splice it out,

  // before flushing that change back to disk.

  let lines = (await IOUtils.readUTF8(FAKE_ARCHIVE_PATH)).split("\n");

  let foundIndex = -1;

  // The longest lines will be the base64 encoded chunks. Remove the last one.

  for (let i = lines.length - 1; i >= 0; i--) {

    if (lines[i].length > ArchiveUtils.ARCHIVE_CHUNK_MAX_BYTES_SIZE) {

      foundIndex = i;

      break;

  Assert.notEqual(foundIndex, -1, "Should have found a long line");

  lines.splice(foundIndex, 1);

  await IOUtils.writeUTF8(FAKE_ARCHIVE_PATH, lines.join("\n"));

  let { isEncrypted } = await bs.sampleArchive(FAKE_ARCHIVE_PATH);

  Assert.ok(isEncrypted, "Should be considered encrypted.");

  const EXTRACTION_PATH = PathUtils.join(testProfilePath, "extraction.bin");

  await Assert.rejects(

    bs.extractCompressedSnapshotFromArchive(

      FAKE_ARCHIVE_PATH,

      EXTRACTION_PATH,

      TEST_RECOVERY_CODE

),

    /Corrupted archive/

);

  Assert.ok(

    !(await IOUtils.exists(EXTRACTION_PATH)),

    "Extraction should have been automatically destroyed."

);

  await IOUtils.remove(FAKE_ARCHIVE_PATH);

  await IOUtils.remove(FAKE_COMPRESSED_FILE);

});

/**

 * Tests that if the BinaryReadableStream closes early before the last chunk

 * is decrypted, that the recovery file is destroyed.

*/

add_task(async function test_createArchive_early_binary_stream_close() {

  const TEST_RECOVERY_CODE = "This is some recovery code.";

  let bs = new BackupService();

  let { instance: encState } = await ArchiveEncryptionState.initialize(

    TEST_RECOVERY_CODE

);

  const FAKE_ARCHIVE_PATH = PathUtils.join(

    testProfilePath,

    "fake-encrypted-archive.html"

);

  await bs.createArchive(

    FAKE_ARCHIVE_PATH,

    archiveTemplateURI,

    fakeCompressedStagingPath,

    encState,

    FAKE_METADATA

);

  let { isEncrypted, startByteOffset, contentType, archiveJSON } =

    await bs.sampleArchive(FAKE_ARCHIVE_PATH);

  Assert.ok(isEncrypted, "Should be considered encrypted.");

  let archiveFile = await IOUtils.getFile(FAKE_ARCHIVE_PATH);

  let archiveStream = await bs.createBinaryReadableStream(

    archiveFile,

    startByteOffset,

    contentType

);

  let decryptor = await ArchiveDecryptor.initialize(

    TEST_RECOVERY_CODE,

    archiveJSON

);

  const EXTRACTION_PATH = PathUtils.join(testProfilePath, "extraction.bin");

  let binaryDecoder = new TransformStream(

    new DecoderDecryptorTransformer(decryptor)

);

  let fileWriter = new WritableStream(

    new FileWriterStream(EXTRACTION_PATH, decryptor)

);

  // We're going to run the characters from the archiveStream through an

  // intermediary TransformStream that is going to cause an abort before the

  // the stream can complete. We'll do that by only passing part of the first

  // chunk through, and then aborting.

  let earlyAborter = new TransformStream({

    async transform(chunkPart, controller) {

      controller.enqueue(

        chunkPart.substring(0, Math.floor(chunkPart.length / 2))

);

      controller.error("We're done. Aborting early.");

},

});

  let pipePromise = archiveStream

    .pipeThrough(earlyAborter)

    .pipeThrough(binaryDecoder)

    .pipeTo(fileWriter);

  await Assert.rejects(pipePromise, /Aborting early/);

  Assert.ok(

    !(await IOUtils.exists(EXTRACTION_PATH)),

    "Extraction should have been automatically destroyed."

);

  await IOUtils.remove(FAKE_ARCHIVE_PATH);

});

/**

 * Tests that if the nsIZipReader fails the CRC check, that the ZIP recovery

 * file is destroyed and an exception is thrown.

*/

add_task(async function test_createArchive_corrupt_zip() {

  let bs = new BackupService();

  let corruptZipFile = do_get_file("data/corrupt.zip");

  let fakeRecoveryFilePath = await IOUtils.createUniqueDirectory(

    PathUtils.tempDir,

    "testCreateArchiveCorruptZipSource"

);

  const CORRUPT_ZIP_SOURCE = PathUtils.join(

    fakeRecoveryFilePath,

    "corrupt.zip"

);

  await IOUtils.copy(corruptZipFile.path, CORRUPT_ZIP_SOURCE);

  let fakeRecoveryPath = await IOUtils.createUniqueDirectory(

    PathUtils.tempDir,

    "testCreateArchiveCorruptZipDest"

);

  await Assert.rejects(

    bs.decompressRecoveryFile(CORRUPT_ZIP_SOURCE, fakeRecoveryPath),

    /Corrupt/

);

  let children = await IOUtils.getChildren(fakeRecoveryPath);

  Assert.equal(children.length, 0, "Nothing was decompressed.");

  Assert.ok(

    !(await IOUtils.exists(CORRUPT_ZIP_SOURCE)),

    "Corrupt zip was deleted."

);

});

/**

 * Tests that if the archive file does not contain a JSON block that

 * BackupService.sampleArchive will reject.

*/

add_task(async function test_missing_JSON_block() {

  let bs = new BackupService();

  let missingJSONBlockFile = do_get_file("data/missing_json_block.html");

  await Assert.rejects(

    bs.sampleArchive(missingJSONBlockFile.path),

    /Could not find JSON block/

);

});

/**

 * Tests that if the archive file does not contain a binary block that

 * BackupService.extractCompressedSnapshotFromArchive will reject.

*/

add_task(async function test_missing_binary_block() {

  let bs = new BackupService();

  let fakeRecoveryPath = await IOUtils.createUniqueDirectory(

    PathUtils.tempDir,

    "testCreateArchiveMissingBinaryBlockDest"

);

  let missingBinaryBlockFile = do_get_file("data/missing_binary_block.html");

  await Assert.rejects(

    bs.extractCompressedSnapshotFromArchive(

      missingBinaryBlockFile.path,

      fakeRecoveryPath

),

    /Could not find binary block/

);

  await IOUtils.remove(fakeRecoveryPath);

});

/**

 * Tests that if the archive file is constructed in such a way that the

 * worker ends up breaking Unicode characters in half when finding the

 * JSON block, that we can still extract the JSON block.

 * See bug 1906912.

*/

add_task(async function test_broken_unicode_characters() {

  let bs = new BackupService();

  let specialUnicodeFile = do_get_file("data/break_over_unicode.html");

  let { archiveJSON } = await bs.sampleArchive(specialUnicodeFile.path);

  Assert.ok(

    archiveJSON,

    "Was able to extract the JSON from the specially created file with " +

      "unicode characters"

);

});