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joplin/packages/app-mobile/utils/fs-driver/runOnDeviceTests.ts

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import Setting from '@joplin/lib/models/Setting';
import shim from '@joplin/lib/shim';
import uuid from '@joplin/lib/uuid';
import { join } from 'path';
import FsDriverBase from '@joplin/lib/fs-driver-base';
import Logger from '@joplin/utils/Logger';
import { Buffer } from 'buffer';
import createFilesFromPathRecord from './testUtil/createFilesFromPathRecord';
import verifyDirectoryMatches from './testUtil/verifyDirectoryMatches';
const logger = Logger.create('fs-driver-tests');
const expectToBe = async <T> (actual: T, expected: T) => {
if (actual !== expected) {
throw new Error(`Integration test failure: ${actual} was expected to be ${expected}`);
}
};
const testExpect = async () => {
// Verify that expect is working
await expectToBe(1, 1);
await expectToBe(true, true);
let failed = false;
try {
await expectToBe('a', 'test');
failed = true;
} catch (_error) {
failed = false;
}
if (failed) {
throw new Error('expectToBe should throw when given non-equal inputs');
}
};
const testAppendFile = async (tempDir: string) => {
logger.info('Testing fsDriver.appendFile...');
const targetFile = join(tempDir, uuid.createNano());
const fsDriver: FsDriverBase = shim.fsDriver();
// For fs-driver-rn's appendFile to work, we first need to create the file.
// TODO: This is different from the requirements of fs-driver-node.
await fsDriver.writeFile(targetFile, '');
const firstChunk = 'A 𝓊𝓃𝒾𝒸𝓸𝒹𝓮 test\n...';
await fsDriver.appendFile(targetFile, firstChunk, 'utf-8');
await expectToBe(await fsDriver.readFile(targetFile), firstChunk);
const secondChunk = '▪️ More unicode ▪️';
await fsDriver.appendFile(targetFile, secondChunk, 'utf8');
await expectToBe(await fsDriver.readFile(targetFile), firstChunk + secondChunk);
const thirdChunk = 'ASCII';
await fsDriver.appendFile(targetFile, thirdChunk, 'ascii');
await expectToBe(await fsDriver.readFile(targetFile), firstChunk + secondChunk + thirdChunk);
const lastChunk = 'Test...';
await fsDriver.appendFile(
targetFile, Buffer.from(lastChunk, 'utf8').toString('base64'), 'base64',
);
await expectToBe(
await fsDriver.readFile(targetFile), firstChunk + secondChunk + thirdChunk + lastChunk,
);
// Should throw if given an invalid encoding
let didThrow = false;
try {
await fsDriver.appendFile(targetFile, 'test', 'bad-encoding');
} catch (_error) {
didThrow = true;
}
await expectToBe(didThrow, true);
};
const testReadWriteFileUtf8 = async (tempDir: string) => {
logger.info('Testing fsDriver.writeFile and fsDriver.readFile with utf-8...');
const filePath = join(tempDir, uuid.createNano());
const testStrings = [
// ASCII
'test',
// Special characters
'𝐴 𝒕𝐞𝑺𝒕',
// Emojis
'✅ Test. 🕳️',
];
const testEncodings = ['utf-8', 'utf8', 'UtF-8'];
// Use the same file for all tests to test overwriting
for (const encoding of testEncodings) {
for (const testString of testStrings) {
const fsDriver: FsDriverBase = shim.fsDriver();
await fsDriver.writeFile(filePath, testString, encoding);
const fileData = await fsDriver.readFile(filePath, encoding);
await expectToBe(fileData, testString);
}
}
};
const testReadFileChunkUtf8 = async (tempDir: string) => {
logger.info('Testing fsDriver.readFileChunk...');
const filePath = join(tempDir, `${uuid.createNano()}.txt`);
const fsDriver: FsDriverBase = shim.fsDriver();
// 🕳️ is 7 bytes when utf-8 encoded
// à,á,â, and ã are each 2 bytes
const expectedFileContent = '01234567\nàáâã\n🕳️🕳️🕳️\ntēst...';
await fsDriver.writeFile(filePath, expectedFileContent, 'utf8');
const testEncodings = ['utf-8', 'utf8', 'UtF-8'];
for (const encoding of testEncodings) {
const handle = await fsDriver.open(filePath, 'r');
await expectToBe(
await fsDriver.readFileChunk(handle, 8, encoding), '01234567',
);
await expectToBe(
await fsDriver.readFileChunk(handle, 1, encoding), '\n',
);
await expectToBe(
await fsDriver.readFileChunk(handle, 8, encoding), 'àáâã',
);
await expectToBe(
await fsDriver.readFileChunk(handle, 8, encoding), '\n🕳️',
);
await expectToBe(
await fsDriver.readFileChunk(handle, 15, encoding), '🕳️🕳️\n',
);
// A 0 length should return null and not advance
await expectToBe(
await fsDriver.readFileChunk(handle, 0, encoding), null,
);
// Reading a different encoding (then switching back to the original)
// should be supported
await expectToBe(
await fsDriver.readFileChunk(handle, 3, 'base64'),
Buffer.from('tē', 'utf-8').toString('base64'),
);
await expectToBe(
await fsDriver.readFileChunk(handle, 100, encoding), 'st...',
);
// Should not be able to read past the end
await expectToBe(
await fsDriver.readFileChunk(handle, 10, encoding), null,
);
await expectToBe(
await fsDriver.readFileChunk(handle, 1, encoding), null,
);
await fsDriver.close(handle);
}
// Should throw when the file doesn't exist
let readData = undefined;
try {
const handle = await fsDriver.open(`${filePath}.noexist`, 'r');
readData = await fsDriver.readFileChunk(handle, 1, 'utf8');
} catch (error) {
await expectToBe(error.code, 'ENOENT');
}
// Should not have read any data
await expectToBe(readData, undefined);
};
const testTarCreateAndExtract = async (tempDir: string) => {
logger.info('Testing fsDriver.tarCreate...');
const directoryToPack = join(tempDir, uuid.createNano());
const fsDriver: FsDriverBase = shim.fsDriver();
// Add test files to the directory
const fileContents: Record<string, string> = {};
// small utf-8 encoded files
for (let i = 0; i < 10; i ++) {
const testFileName = uuid.createNano();
const fileContent = `✅ Testing... ä ✅ File #${i}`;
fileContents[testFileName] = fileContent;
}
// larger utf-8 encoded files
for (let i = 0; i < 3; i ++) {
const testFileName = uuid.createNano();
let fileContent = `✅ Testing... ä ✅ File #${i}`;
for (let j = 0; j < 8; j ++) {
fileContent += fileContent;
}
fileContents[testFileName] = fileContent;
}
await createFilesFromPathRecord(directoryToPack, fileContents);
// Pack the files
const pathsToTar = Object.keys(fileContents);
const tarOutputPath = join(tempDir, 'test-tar.tar');
await fsDriver.tarCreate({
cwd: directoryToPack,
file: tarOutputPath,
}, pathsToTar);
// Read the tar file as utf-8 and search for the written file contents
// (which should work).
const rawTarData: string = await fsDriver.readFile(tarOutputPath, 'utf8');
for (const fileContent of Object.values(fileContents)) {
await expectToBe(rawTarData.includes(fileContent), true);
}
logger.info('Testing fsDriver.tarExtract...');
const outputDirectory = join(tempDir, uuid.createNano());
await fsDriver.mkdir(outputDirectory);
await fsDriver.tarExtract({
cwd: outputDirectory,
file: tarOutputPath,
});
await verifyDirectoryMatches(outputDirectory, fileContents);
};
const testMd5File = async (tempDir: string) => {
logger.info('Testing fsDriver.md5file...');
const fsDriver = shim.fsDriver();
const testFilePath = join(tempDir, `test-md5-${uuid.createNano()}`);
await fsDriver.writeFile(testFilePath, '🚧test', 'utf8');
await expectToBe(await fsDriver.md5File(testFilePath), 'ba11ba1be5042133a71874731e3d42cd');
};
// In the past, some fs-driver functionality has worked correctly on some devices and not others.
// As such, we need to be able to run some tests on-device.
const runOnDeviceTests = async () => {
const tempDir = join(Setting.value('tempDir'), uuid.createNano());
if (await shim.fsDriver().exists(tempDir)) {
await shim.fsDriver().remove(tempDir);
}
await shim.fsDriver().mkdir(tempDir);
try {
await testExpect();
await testAppendFile(tempDir);
await testReadWriteFileUtf8(tempDir);
await testReadFileChunkUtf8(tempDir);
await testTarCreateAndExtract(tempDir);
await testMd5File(tempDir);
logger.info('Done');
} catch (error) {
const errorMessage = `On-device testing failed with an exception: ${error}.`;
logger.error(errorMessage, error);
alert(errorMessage);
} finally {
await shim.fsDriver().remove(tempDir);
}
};
export default runOnDeviceTests;