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.
161 lines
7.3 KiB
TypeScript
161 lines
7.3 KiB
TypeScript
/**
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* Utilities for hex, bytes, CSPRNG.
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* @module
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*/
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/*! noble-hashes - MIT License (c) 2022 Paul Miller (paulmillr.com) */
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/** Checks if something is Uint8Array. Be careful: nodejs Buffer will return true. */
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export declare function isBytes(a: unknown): a is Uint8Array;
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/** Asserts something is positive integer. */
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export declare function anumber(n: number): void;
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/** Asserts something is Uint8Array. */
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export declare function abytes(b: Uint8Array | undefined, ...lengths: number[]): void;
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/** Asserts something is hash */
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export declare function ahash(h: IHash): void;
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/** Asserts a hash instance has not been destroyed / finished */
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export declare function aexists(instance: any, checkFinished?: boolean): void;
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/** Asserts output is properly-sized byte array */
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export declare function aoutput(out: any, instance: any): void;
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/** Generic type encompassing 8/16/32-byte arrays - but not 64-byte. */
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export type TypedArray = Int8Array | Uint8ClampedArray | Uint8Array | Uint16Array | Int16Array | Uint32Array | Int32Array;
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/** Cast u8 / u16 / u32 to u8. */
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export declare function u8(arr: TypedArray): Uint8Array;
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/** Cast u8 / u16 / u32 to u32. */
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export declare function u32(arr: TypedArray): Uint32Array;
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/** Zeroize a byte array. Warning: JS provides no guarantees. */
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export declare function clean(...arrays: TypedArray[]): void;
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/** Create DataView of an array for easy byte-level manipulation. */
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export declare function createView(arr: TypedArray): DataView;
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/** The rotate right (circular right shift) operation for uint32 */
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export declare function rotr(word: number, shift: number): number;
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/** The rotate left (circular left shift) operation for uint32 */
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export declare function rotl(word: number, shift: number): number;
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/** Is current platform little-endian? Most are. Big-Endian platform: IBM */
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export declare const isLE: boolean;
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/** The byte swap operation for uint32 */
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export declare function byteSwap(word: number): number;
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/** Conditionally byte swap if on a big-endian platform */
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export declare const swap8IfBE: (n: number) => number;
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/** @deprecated */
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export declare const byteSwapIfBE: typeof swap8IfBE;
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/** In place byte swap for Uint32Array */
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export declare function byteSwap32(arr: Uint32Array): Uint32Array;
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export declare const swap32IfBE: (u: Uint32Array) => Uint32Array;
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/**
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* Convert byte array to hex string. Uses built-in function, when available.
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* @example bytesToHex(Uint8Array.from([0xca, 0xfe, 0x01, 0x23])) // 'cafe0123'
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*/
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export declare function bytesToHex(bytes: Uint8Array): string;
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/**
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* Convert hex string to byte array. Uses built-in function, when available.
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* @example hexToBytes('cafe0123') // Uint8Array.from([0xca, 0xfe, 0x01, 0x23])
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*/
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export declare function hexToBytes(hex: string): Uint8Array;
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/**
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* There is no setImmediate in browser and setTimeout is slow.
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* Call of async fn will return Promise, which will be fullfiled only on
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* next scheduler queue processing step and this is exactly what we need.
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*/
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export declare const nextTick: () => Promise<void>;
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/** Returns control to thread each 'tick' ms to avoid blocking. */
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export declare function asyncLoop(iters: number, tick: number, cb: (i: number) => void): Promise<void>;
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/**
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* Converts string to bytes using UTF8 encoding.
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* @example utf8ToBytes('abc') // Uint8Array.from([97, 98, 99])
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*/
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export declare function utf8ToBytes(str: string): Uint8Array;
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/**
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* Converts bytes to string using UTF8 encoding.
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* @example bytesToUtf8(Uint8Array.from([97, 98, 99])) // 'abc'
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*/
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export declare function bytesToUtf8(bytes: Uint8Array): string;
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/** Accepted input of hash functions. Strings are converted to byte arrays. */
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export type Input = string | Uint8Array;
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/**
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* Normalizes (non-hex) string or Uint8Array to Uint8Array.
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* Warning: when Uint8Array is passed, it would NOT get copied.
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* Keep in mind for future mutable operations.
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*/
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export declare function toBytes(data: Input): Uint8Array;
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/** KDFs can accept string or Uint8Array for user convenience. */
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export type KDFInput = string | Uint8Array;
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/**
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* Helper for KDFs: consumes uint8array or string.
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* When string is passed, does utf8 decoding, using TextDecoder.
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*/
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export declare function kdfInputToBytes(data: KDFInput): Uint8Array;
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/** Copies several Uint8Arrays into one. */
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export declare function concatBytes(...arrays: Uint8Array[]): Uint8Array;
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type EmptyObj = {};
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export declare function checkOpts<T1 extends EmptyObj, T2 extends EmptyObj>(defaults: T1, opts?: T2): T1 & T2;
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/** Hash interface. */
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export type IHash = {
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(data: Uint8Array): Uint8Array;
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blockLen: number;
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outputLen: number;
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create: any;
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};
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/** For runtime check if class implements interface */
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export declare abstract class Hash<T extends Hash<T>> {
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abstract blockLen: number;
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abstract outputLen: number;
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abstract update(buf: Input): this;
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abstract digestInto(buf: Uint8Array): void;
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abstract digest(): Uint8Array;
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/**
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* Resets internal state. Makes Hash instance unusable.
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* Reset is impossible for keyed hashes if key is consumed into state. If digest is not consumed
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* by user, they will need to manually call `destroy()` when zeroing is necessary.
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*/
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abstract destroy(): void;
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/**
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* Clones hash instance. Unsafe: doesn't check whether `to` is valid. Can be used as `clone()`
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* when no options are passed.
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* Reasons to use `_cloneInto` instead of clone: 1) performance 2) reuse instance => all internal
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* buffers are overwritten => causes buffer overwrite which is used for digest in some cases.
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* There are no guarantees for clean-up because it's impossible in JS.
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*/
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abstract _cloneInto(to?: T): T;
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abstract clone(): T;
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}
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/**
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* XOF: streaming API to read digest in chunks.
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* Same as 'squeeze' in keccak/k12 and 'seek' in blake3, but more generic name.
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* When hash used in XOF mode it is up to user to call '.destroy' afterwards, since we cannot
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* destroy state, next call can require more bytes.
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*/
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export type HashXOF<T extends Hash<T>> = Hash<T> & {
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xof(bytes: number): Uint8Array;
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xofInto(buf: Uint8Array): Uint8Array;
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};
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/** Hash function */
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export type CHash = ReturnType<typeof createHasher>;
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/** Hash function with output */
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export type CHashO = ReturnType<typeof createOptHasher>;
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/** XOF with output */
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export type CHashXO = ReturnType<typeof createXOFer>;
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/** Wraps hash function, creating an interface on top of it */
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export declare function createHasher<T extends Hash<T>>(hashCons: () => Hash<T>): {
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(msg: Input): Uint8Array;
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outputLen: number;
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blockLen: number;
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create(): Hash<T>;
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};
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export declare function createOptHasher<H extends Hash<H>, T extends Object>(hashCons: (opts?: T) => Hash<H>): {
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(msg: Input, opts?: T): Uint8Array;
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outputLen: number;
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blockLen: number;
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create(opts?: T): Hash<H>;
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};
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export declare function createXOFer<H extends HashXOF<H>, T extends Object>(hashCons: (opts?: T) => HashXOF<H>): {
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(msg: Input, opts?: T): Uint8Array;
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outputLen: number;
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blockLen: number;
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create(opts?: T): HashXOF<H>;
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};
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export declare const wrapConstructor: typeof createHasher;
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export declare const wrapConstructorWithOpts: typeof createOptHasher;
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export declare const wrapXOFConstructorWithOpts: typeof createXOFer;
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/** Cryptographically secure PRNG. Uses internal OS-level `crypto.getRandomValues`. */
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export declare function randomBytes(bytesLength?: number): Uint8Array;
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export {};
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//# sourceMappingURL=utils.d.ts.map
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