545563e776
- Complete NestJS TypeScript implementation with WebSocket support - Direct messaging (DM) and group chat functionality - End-to-end encryption with AES encryption and key pairs - Media file support (images, videos, audio, documents) up to 100MB - Push notifications with Firebase Cloud Messaging integration - Mention alerts and real-time typing indicators - User authentication with JWT and Passport - SQLite database with TypeORM entities and relationships - Comprehensive API documentation with Swagger/OpenAPI - File upload handling with secure access control - Online/offline status tracking and presence management - Message editing, deletion, and reply functionality - Notification management with automatic cleanup - Health check endpoint for monitoring - CORS configuration for cross-origin requests - Environment-based configuration management - Structured for Flutter SDK integration Features implemented: ✅ Real-time messaging with Socket.IO ✅ User registration and authentication ✅ Direct messages and group chats ✅ Media file uploads and management ✅ End-to-end encryption ✅ Push notifications ✅ Mention alerts ✅ Typing indicators ✅ Message read receipts ✅ Online status tracking ✅ File access control ✅ Comprehensive API documentation Ready for Flutter SDK development and production deployment.
memfs
In-memory file-system with Node's fs API.
- Node's
fsAPI implemented, see old API Status, missing list, missingopendir - Stores files in memory, in
Buffers - Throws sameish* errors as Node.js
- Has concept of i-nodes
- Implements hard links
- Implements soft links (aka symlinks, symbolic links)
- Permissions may* be implemented in the future
- Can be used in browser, see
memfs-webpack
Install
npm install --save memfs
Usage
import { fs } from 'memfs';
fs.writeFileSync('/hello.txt', 'World!');
fs.readFileSync('/hello.txt', 'utf8'); // World!
Create a file system from a plain JSON:
import { fs, vol } from 'memfs';
const json = {
'./README.md': '1',
'./src/index.js': '2',
'./node_modules/debug/index.js': '3',
};
vol.fromJSON(json, '/app');
fs.readFileSync('/app/README.md', 'utf8'); // 1
vol.readFileSync('/app/src/index.js', 'utf8'); // 2
Export to JSON:
vol.writeFileSync('/script.sh', 'sudo rm -rf *');
vol.toJSON(); // {"/script.sh": "sudo rm -rf *"}
Use it for testing:
vol.writeFileSync('/foo', 'bar');
expect(vol.toJSON()).toEqual({ '/foo': 'bar' });
Create as many filesystem volumes as you need:
import { Volume } from 'memfs';
const vol = Volume.fromJSON({ '/foo': 'bar' });
vol.readFileSync('/foo'); // bar
const vol2 = Volume.fromJSON({ '/foo': 'bar 2' });
vol2.readFileSync('/foo'); // bar 2
Use memfs together with unionfs to create one filesystem
from your in-memory volumes and the real disk filesystem:
import * as fs from 'fs';
import { ufs } from 'unionfs';
ufs.use(fs).use(vol);
ufs.readFileSync('/foo'); // bar
Use fs-monkey to monkey-patch Node's require function:
import { patchRequire } from 'fs-monkey';
vol.writeFileSync('/index.js', 'console.log("hi world")');
patchRequire(vol);
require('/index'); // hi world
Docs
See also
spyfs- spies on filesystem actionsunionfs- creates a union of multiple filesystem volumeslinkfs- redirects filesystem pathsfs-monkey- monkey-patches Node'sfsmodule andrequirefunctionlibfs- real filesystem (that executes UNIX system calls) implemented in JavaScript
License
Unlicense - public domain.