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LibreChat/api/server/services/twoFactorService.js
Danny Avila 04a4a2aa44
🧵 refactor: Migrate Endpoint Initialization to TypeScript (#10794) 
* refactor: move endpoint initialization methods to typescript

* refactor: move agent init to packages/api

- Introduced `initialize.ts` for agent initialization, including file processing and tool loading.
- Updated `resources.ts` to allow optional appConfig parameter.
- Enhanced endpoint configuration handling in various initialization files to support model parameters.
- Added new artifacts and prompts for React component generation.
- Refactored existing code to improve type safety and maintainability.

* refactor: streamline endpoint initialization and enhance type safety

- Updated initialization functions across various endpoints to use a consistent request structure, replacing `unknown` types with `ServerResponse`.
- Simplified request handling by directly extracting keys from the request body.
- Improved type safety by ensuring user IDs are safely accessed with optional chaining.
- Removed unnecessary parameters and streamlined model options handling for better clarity and maintainability.

* refactor: moved ModelService and extractBaseURL to packages/api

- Added comprehensive tests for the models fetching functionality, covering scenarios for OpenAI, Anthropic, Google, and Ollama models.
- Updated existing endpoint index to include the new models module.
- Enhanced utility functions for URL extraction and model data processing.
- Improved type safety and error handling across the models fetching logic.

* refactor: consolidate utility functions and remove unused files

- Merged `deriveBaseURL` and `extractBaseURL` into the `@librechat/api` module for better organization.
- Removed redundant utility files and their associated tests to streamline the codebase.
- Updated imports across various client files to utilize the new consolidated functions.
- Enhanced overall maintainability by reducing the number of utility modules.

* refactor: replace ModelService references with direct imports from @librechat/api and remove ModelService file

* refactor: move encrypt/decrypt methods and key db methods to data-schemas, use `getProviderConfig` from `@librechat/api`

* chore: remove unused 'res' from options in AgentClient

* refactor: file model imports and methods

- Updated imports in various controllers and services to use the unified file model from '~/models' instead of '~/models/File'.
- Consolidated file-related methods into a new file methods module in the data-schemas package.
- Added comprehensive tests for file methods including creation, retrieval, updating, and deletion.
- Enhanced the initializeAgent function to accept dependency injection for file-related methods.
- Improved error handling and logging in file methods.

* refactor: streamline database method references in agent initialization

* refactor: enhance file method tests and update type references to IMongoFile

* refactor: consolidate database method imports in agent client and initialization

* chore: remove redundant import of initializeAgent from @librechat/api

* refactor: move checkUserKeyExpiry utility to @librechat/api and update references across endpoints

* refactor: move updateUserPlugins logic to user.ts and simplify UserController

* refactor: update imports for user key management and remove UserService

* refactor: remove unused Anthropics and Bedrock endpoint files and clean up imports

* refactor: consolidate and update encryption imports across various files to use @librechat/data-schemas

* chore: update file model mock to use unified import from '~/models'

* chore: import order

* refactor: remove migrated to TS agent.js file and its associated logic from the endpoints

* chore: add reusable function to extract imports from source code in unused-packages workflow

* chore: enhance unused-packages workflow to include @librechat/api dependencies and improve dependency extraction

* chore: improve dependency extraction in unused-packages workflow with enhanced error handling and debugging output

* chore: add detailed debugging output to unused-packages workflow for better visibility into unused dependencies and exclusion lists

* chore: refine subpath handling in unused-packages workflow to correctly process scoped and non-scoped package imports

* chore: clean up unused debug output in unused-packages workflow and reorganize type imports in initialize.ts
2025-12-11 16:37:16 -05:00

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const { webcrypto } = require('node:crypto');
const { hashBackupCode, decryptV3, decryptV2 } = require('@librechat/data-schemas');
const { updateUser } = require('~/models');
// Base32 alphabet for TOTP secret encoding.
const BASE32_ALPHABET = 'ABCDEFGHIJKLMNOPQRSTUVWXYZ234567';
/**
* Encodes a Buffer into a Base32 string.
* @param {Buffer} buffer
* @returns {string}
*/
const encodeBase32 = (buffer) => {
let bits = 0;
let value = 0;
let output = '';
for (const byte of buffer) {
value = (value << 8) | byte;
bits += 8;
while (bits >= 5) {
output += BASE32_ALPHABET[(value >>> (bits - 5)) & 31];
bits -= 5;
}
}
if (bits > 0) {
output += BASE32_ALPHABET[(value << (5 - bits)) & 31];
}
return output;
};
/**
* Decodes a Base32 string into a Buffer.
* @param {string} base32Str
* @returns {Buffer}
*/
const decodeBase32 = (base32Str) => {
const cleaned = base32Str.replace(/=+$/, '').toUpperCase();
let bits = 0;
let value = 0;
const output = [];
for (const char of cleaned) {
const idx = BASE32_ALPHABET.indexOf(char);
if (idx === -1) {
continue;
}
value = (value << 5) | idx;
bits += 5;
if (bits >= 8) {
output.push((value >>> (bits - 8)) & 0xff);
bits -= 8;
}
}
return Buffer.from(output);
};
/**
* Generates a new TOTP secret (Base32 encoded).
* @returns {string}
*/
const generateTOTPSecret = () => {
const randomArray = new Uint8Array(10);
webcrypto.getRandomValues(randomArray);
return encodeBase32(Buffer.from(randomArray));
};
/**
* Generates a TOTP code based on the secret and time.
* Uses a 30-second time step and produces a 6-digit code.
* @param {string} secret
* @param {number} [forTime=Date.now()]
* @returns {Promise<string>}
*/
const generateTOTP = async (secret, forTime = Date.now()) => {
const timeStep = 30; // seconds
const counter = Math.floor(forTime / 1000 / timeStep);
const counterBuffer = new ArrayBuffer(8);
const counterView = new DataView(counterBuffer);
counterView.setUint32(4, counter, false);
const keyBuffer = decodeBase32(secret);
const keyArrayBuffer = keyBuffer.buffer.slice(
keyBuffer.byteOffset,
keyBuffer.byteOffset + keyBuffer.byteLength,
);
const cryptoKey = await webcrypto.subtle.importKey(
'raw',
keyArrayBuffer,
{ name: 'HMAC', hash: 'SHA-1' },
false,
['sign'],
);
const signatureBuffer = await webcrypto.subtle.sign('HMAC', cryptoKey, counterBuffer);
const hmac = new Uint8Array(signatureBuffer);
// Dynamic truncation per RFC 4226.
const offset = hmac[hmac.length - 1] & 0xf;
const slice = hmac.slice(offset, offset + 4);
const view = new DataView(slice.buffer, slice.byteOffset, slice.byteLength);
const binaryCode = view.getUint32(0, false) & 0x7fffffff;
const code = (binaryCode % 1000000).toString().padStart(6, '0');
return code;
};
/**
* Verifies a TOTP token by checking a ±1 time step window.
* @param {string} secret
* @param {string} token
* @returns {Promise<boolean>}
*/
const verifyTOTP = async (secret, token) => {
const timeStepMS = 30 * 1000;
const currentTime = Date.now();
for (let offset = -1; offset <= 1; offset++) {
const expected = await generateTOTP(secret, currentTime + offset * timeStepMS);
if (expected === token) {
return true;
}
}
return false;
};
/**
* Generates backup codes (default count: 10).
* Each code is an 8-character hexadecimal string and stored with its SHA-256 hash.
* @param {number} [count=10]
* @returns {Promise<{ plainCodes: string[], codeObjects: Array<{ codeHash: string, used: boolean, usedAt: Date | null }> }>}
*/
const generateBackupCodes = async (count = 10) => {
const plainCodes = [];
const codeObjects = [];
const encoder = new TextEncoder();
for (let i = 0; i < count; i++) {
const randomArray = new Uint8Array(4);
webcrypto.getRandomValues(randomArray);
const code = Array.from(randomArray)
.map((b) => b.toString(16).padStart(2, '0'))
.join('');
plainCodes.push(code);
const codeBuffer = encoder.encode(code);
const hashBuffer = await webcrypto.subtle.digest('SHA-256', codeBuffer);
const hashArray = Array.from(new Uint8Array(hashBuffer));
const codeHash = hashArray.map((b) => b.toString(16).padStart(2, '0')).join('');
codeObjects.push({ codeHash, used: false, usedAt: null });
}
return { plainCodes, codeObjects };
};
/**
* Verifies a backup code and, if valid, marks it as used.
* @param {Object} params
* @param {Object} params.user
* @param {string} params.backupCode
* @returns {Promise<boolean>}
*/
const verifyBackupCode = async ({ user, backupCode }) => {
if (!backupCode || !user || !Array.isArray(user.backupCodes)) {
return false;
}
const hashedInput = await hashBackupCode(backupCode.trim());
const matchingCode = user.backupCodes.find(
(codeObj) => codeObj.codeHash === hashedInput && !codeObj.used,
);
if (matchingCode) {
const updatedBackupCodes = user.backupCodes.map((codeObj) =>
codeObj.codeHash === hashedInput && !codeObj.used
? { ...codeObj, used: true, usedAt: new Date() }
: codeObj,
);
// Update the user record with the marked backup code.
await updateUser(user._id, { backupCodes: updatedBackupCodes });
return true;
}
return false;
};
/**
* Retrieves and decrypts a stored TOTP secret.
* - Uses decryptV3 if the secret has a "v3:" prefix.
* - Falls back to decryptV2 for colon-delimited values.
* - Assumes a 16-character secret is already plain.
* @param {string|null} storedSecret
* @returns {Promise<string|null>}
*/
const getTOTPSecret = async (storedSecret) => {
if (!storedSecret) {
return null;
}
if (storedSecret.startsWith('v3:')) {
return decryptV3(storedSecret);
}
if (storedSecret.includes(':')) {
return await decryptV2(storedSecret);
}
if (storedSecret.length === 16) {
return storedSecret;
}
return storedSecret;
};
/**
* Generates a temporary JWT token for 2FA verification that expires in 5 minutes.
* @param {string} userId
* @returns {string}
*/
const generate2FATempToken = (userId) => {
const { sign } = require('jsonwebtoken');
return sign({ userId, twoFAPending: true }, process.env.JWT_SECRET, { expiresIn: '5m' });
};
module.exports = {
generateTOTPSecret,
generateTOTP,
verifyTOTP,
generateBackupCodes,
verifyBackupCode,
getTOTPSecret,
generate2FATempToken,
};
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