@happy-js/happy-opfs@1.9.0Built and signed on GitHub ActionsBuilt and signed on GitHub Actions
A browser-compatible fs module inspired by the Deno fs and @std/fs APIs, based on OPFS implementation.
Use OPFS happily
中文
This is a browser-compatible fs module based on OPFS, which references the Deno Runtime File_System and Deno @std/fs APIs.
Installation
# via pnpm pnpm add happy-opfs # or via yarn yarn add happy-opfs # or just from npm npm install --save happy-opfs # via JSR jsr add @happy-js/happy-opfs
This package depends on @std/path from JSR. To ensure proper installation, make sure you have a .npmrc file in the same directory as your package.json with the following line:
@jsr:registry=https://npm.jsr.io
What is OPFS
OPFS stands for Origin private file system, which aims to provide a file system API for manipulating local files in the browser environment.
Why happy-opfs
There are significant differences between the standard OPFS API and familiar file system APIs based on path operations, such as Node.js and Deno. The purpose of this project is to implement an API similar to Deno's in the browser, allowing for convenient file operations.
The return values of asynchronous APIs are of the Result type, similar to Rust's Result enum type, providing a more user-friendly error handling approach.
Why Reference Deno Instead of Node.js
- The early versions of the Node.js fs API were based on callback syntax, although newer versions support Promise syntax. On the other hand, the Deno fs API was designed from the beginning with Promise syntax. Therefore, Deno has less historical baggage, making it a more suitable choice for implementing a native-compatible API.
- Previously, only Deno supported TypeScript natively. Node.js since has implemented type stripping.
Synchronous support
However, it is more recommended to use the asynchronous interface because the main thread does not provide a synchronous interface. In order to force the implementation of synchronous syntax, the I/O operation needs to be moved to the Worker, and the main thread needs to be blocked until the Worker completes the I/O operation, which obviously causes performance loss.
And because the Worker needs to be started, the synchronous interface can only be used after the Worker is started, and any reading and writing before that will fail.
Please note that in order to share data between the main thread and the Worker, SharedArrayBuffer needs to be used, so two additional HTTP Response Headers are required for this:
'Cross-Origin-Opener-Policy': 'same-origin'
'Cross-Origin-Embedder-Policy': 'require-corp'.
Otherwise, an error ReferenceError: SharedArrayBuffer is not defined will be thrown.
Examples
import * as fs from 'happy-opfs'; (async () => { const mockServer = 'https://16a6dafa-2258-4a83-88fa-31a409e42b17.mock.pstmn.io'; const mockTodos = `${ mockServer }/todos`; const mockTodo1 = `${ mockTodos }/1`; // Check if OPFS is supported console.log(`OPFS is${ isOPFSSupported() ? '' : ' not' } supported`); // Clear all files and folders await fs.emptyDir(fs.ROOT_DIR); // Recursively create the /happy/opfs directory await fs.mkdir('/happy/opfs'); // Create and write file content await fs.writeFile('/happy/opfs/a.txt', 'hello opfs'); await fs.writeFile('/happy/op-fs/fs.txt', 'hello opfs'); // Move the file await fs.move('/happy/opfs/a.txt', '/happy/b.txt'); // Append content to the file await fs.appendFile('/happy/b.txt', new TextEncoder().encode(' happy opfs')); // File no longer exists const statRes = await fs.stat('/happy/opfs/a.txt'); console.assert(statRes.isErr()); console.assert((await fs.readFile('/happy/b.txt')).unwrap().byteLength === 21); // Automatically normalize the path console.assert((await fs.readTextFile('//happy///b.txt//')).unwrap() === 'hello opfs happy opfs'); console.assert((await fs.remove('/happy/not/exists')).isOk()); console.assert((await fs.remove('/happy/opfs')).isOk()); console.assert(!(await fs.exists('/happy/opfs')).unwrap()); console.assert((await fs.exists('/happy/b.txt')).unwrap()); console.assert(fs.isFileHandle((await fs.stat('/happy/b.txt')).unwrap())); // Download a file const downloadTask = fs.downloadFile(mockSingle, '/todo.json', { timeout: 1000, onProgress(progressResult): void { progressResult.inspect(progress => { console.log(`Downloaded ${ progress.completedByteLength }/${ progress.totalByteLength } bytes`); }); }, }); const downloadRes = await downloadTask.response; if (downloadRes.isOk()) { console.assert(downloadRes.unwrap() instanceof Response); const postData = (await fs.readTextFile('/todo.json')).unwrap(); const postJson: { id: number; title: string; } = JSON.parse(postData); console.assert(postJson.id === 1); // Modify the file postJson.title = 'happy-opfs'; await fs.writeFile('/todo.json', JSON.stringify(postJson)); // Upload a file console.assert((await fs.uploadFile('/todo.json', mockAll).response).unwrap() instanceof Response); } else { console.assert(downloadRes.unwrapErr() instanceof Error); } { // Download a file to a temporary file const downloadTask = fs.downloadFile(mockSingle); const downloadRes = await downloadTask.response; downloadRes.inspect(x => { console.assert(fs.isTempPath(x.tempFilePath)); console.assert(x.rawResponse instanceof Response); }); if (downloadRes.isOk()) { await fs.remove(downloadRes.unwrap().tempFilePath); } } // Will create directory await fs.emptyDir('/not-exists'); // Zip/Unzip console.assert((await fs.zip('/happy', '/happy.zip')).isOk()); console.assert((await fs.zip('/happy')).unwrap().byteLength === (await fs.readFile('/happy.zip')).unwrap().byteLength); console.assert((await fs.unzip('/happy.zip', '/happy-2')).isOk()); console.assert((await fs.unzipFromUrl(mockZipUrl, '/happy-3', { onProgress(progressResult) { progressResult.inspect(progress => { console.log(`Unzipped ${ progress.completedByteLength }/${ progress.totalByteLength } bytes`); }); }, })).isOk()); console.assert((await fs.zipFromUrl(mockZipUrl, '/test-zip.zip')).isOk()); console.assert((await fs.zipFromUrl(mockZipUrl)).unwrap().byteLength === (await fs.readFile('/test-zip.zip')).unwrap().byteLength); // Temp console.log(`temp txt file: ${ fs.generateTempPath({ basename: 'opfs', extname: '.txt', }) }`); console.log(`temp dir: ${ fs.generateTempPath({ isDirectory: true, }) }`); (await fs.mkTemp()).inspect(path => { console.assert(path.startsWith('/tmp/tmp-')); }); const expired = new Date(); (await fs.mkTemp({ basename: 'opfs', extname: '.txt', })).inspect(path => { console.assert(path.startsWith('/tmp/opfs-')); console.assert(path.endsWith('.txt')); }); (await fs.mkTemp({ isDirectory: true, basename: '', })).inspect(path => { console.assert(path.startsWith('/tmp/')); }); console.assert((await Array.fromAsync((await fs.readDir(fs.TMP_DIR)).unwrap())).length === 3); await fs.pruneTemp(expired); console.assert((await Array.fromAsync((await fs.readDir(fs.TMP_DIR)).unwrap())).length === 2); // await fs.deleteTemp(); // console.assert(!(await fs.exists(fs.TMP_DIR)).unwrap()); // Copy await fs.mkdir('/happy/copy'); console.assert((await fs.copy('/happy/b.txt', '/happy-2')).isErr()); console.assert((await fs.copy('/happy', '/happy-copy')).isOk()); await fs.appendFile('/happy-copy/b.txt', ' copy'); console.assert((await fs.readFile('/happy-copy/b.txt')).unwrap().byteLength === 26); await fs.appendFile('/happy/op-fs/fs.txt', ' copy'); await fs.copy('/happy', '/happy-copy', { overwrite: false, }); console.assert((await fs.readFile('/happy-copy/b.txt')).unwrap().byteLength === 26); // List all files and folders in the root directory for await (const { path, handle } of (await fs.readDir(fs.ROOT_DIR, { recursive: true, })).unwrap()) { const handleLike = await fs.toFileSystemHandleLike(handle); if (fs.isFileHandleLike(handleLike)) { console.log(`${ path } is a ${ handleLike.kind }, name = ${ handleLike.name }, type = ${ handleLike.type }, size = ${ handleLike.size }, lastModified = ${ handleLike.lastModified }`); } else { console.log(`${ path } is a ${ handleLike.kind }, name = ${ handleLike.name }`); } } // Comment this line to view using OPFS Explorer await fs.remove(fs.ROOT_DIR); })();
You can find the above example code in the file tests/async.ts, or you can view the runtime effect using the following steps.
git clone https://github.com/JiangJie/happy-opfs.git cd happy-opfs pnpm install pnpm start
Open https://localhost:8443/ in your browser and open the developer tools to observe the console output.
You can also install the OPFS Explorer browser extension to visually inspect the file system status.
Synchronization Example
worker.ts
import { startSyncAgent } from 'happy-opfs'; startSyncAgent();
index.ts
import { connectSyncAgent, mkdirSync } from 'happy-opfs'; await connectSyncAgent({ worker: new Worker(new URL('worker.ts', import.meta.url), { type: 'module' }), // SharedArrayBuffer size between main thread and worker bufferLength: 10 * 1024 * 1024, // max wait time at main thread per operation opTimeout: 3000, }); mkdirSync('/happy/opfs'); // other sync operations
See tests/sync.ts for details.