import mongoose, {Document} from "mongoose"; const validator = require("validator"); const crypto = require("crypto"); const bcrypt = require("bcrypt"); const jwt = require("jsonwebtoken"); const env = require("../enviroment/env"); const userSchema = new mongoose.Schema({ name: { type:String, trim: true }, email: { type: String, required: true, trim: true, unique: true, lowercase: true, validate(value: any): any { if (!validator.isEmail(value)) { throw new Error("Email is invalid"); } } }, password: { type: String, trim: true, required: true, validate(value: any): any { if (value.length < 6) { throw new Error("Password Length Not Sufficent"); } } }, tokens:[{ token: { type: String, required: true } }], tempTokens: [{ token: { type: String, required: true } }], privateKey: { type: String, }, publicKey: { type: String, } }, { timestamps: true }) export interface UserInterface extends Document { _id: string, name: string, email: string, password: string, tokens: any[], tempTokens: any[], privateKey?: string, publicKey?: string, token?:string, getEncryptionKey: () => Buffer; generateTempAuthToken: () => any; generateTempAuthTokenVideo: (cookie: string) => any; encryptToken: (tempToken: any, key: any, publicKey: any) => any; } // userSchema.virtual("files", { // ref: "fs.files", // localField: "_id" // }) userSchema.pre("save", async function(this: any, next: any) { const user = this; if (user.isModified("password")) { user.password = await bcrypt.hash(user.password, 8); } next(); }) userSchema.statics.findByCreds = async(email: string, password: string) => { const user = await User.findOne({email}); if (!user) { throw new Error("User not found") } const isMatch = await bcrypt.compare(password, user.password); if (!isMatch) { console.log("incorrect password") throw new Error("Incorrect password"); } return user; } userSchema.methods.toJSON = function() { const user = this; const userObject = user.toObject(); delete userObject.password; delete userObject.tokens; delete userObject.tempTokens; return userObject; } userSchema.methods.generateAuthToken = async function() { const iv = crypto.randomBytes(16); const user = this; let token = jwt.sign({_id:user._id.toString(), iv}, env.password); const publicKey = user.publicKey; const encryptionKey = user.getEncryptionKey(); const encryptedToken = user.encryptToken(token, encryptionKey, iv); user.tokens = user.tokens.concat({token: encryptedToken}); await user.save(); return token; } userSchema.methods.encryptToken = function(token: string, key: string, iv: any) { iv = Buffer.from(iv, "hex") const TOKEN_CIPHER_KEY = crypto.createHash('sha256').update(key).digest(); const cipher = crypto.createCipheriv('aes-256-cbc', TOKEN_CIPHER_KEY, iv); let encryptedText = cipher.update(token); encryptedText = Buffer.concat([encryptedText, cipher.final()]).toString("hex"); return encryptedText; } userSchema.methods.decryptToken = function(encryptedToken: any, key: string, iv: any) { encryptedToken = Buffer.from(encryptedToken, "hex"); iv = Buffer.from(iv, "hex") const TOKEN_CIPHER_KEY = crypto.createHash('sha256').update(key).digest(); const decipher = crypto.createDecipheriv('aes-256-cbc', TOKEN_CIPHER_KEY, iv) let tokenDecrypted = decipher.update(encryptedToken); tokenDecrypted = Buffer.concat([tokenDecrypted, decipher.final()]).toString(); return tokenDecrypted; } userSchema.methods.generateEncryptionKeys = async function() { const user = this; const userPassword = user.password; const masterPassword = env.key; const randomKey = crypto.randomBytes(32); const iv = crypto.randomBytes(16); const USER_CIPHER_KEY = crypto.createHash('sha256').update(userPassword).digest(); const cipher = crypto.createCipheriv('aes-256-cbc', USER_CIPHER_KEY, iv); let encryptedText = cipher.update(randomKey); encryptedText = Buffer.concat([encryptedText, cipher.final()]); const MASTER_CIPHER_KEY = crypto.createHash('sha256').update(masterPassword).digest(); const masterCipher = crypto.createCipheriv('aes-256-cbc', MASTER_CIPHER_KEY, iv); let masterEncryptedText = masterCipher.update(encryptedText); masterEncryptedText = Buffer.concat([masterEncryptedText, masterCipher.final()]).toString("hex"); user.privateKey = masterEncryptedText; user.publicKey = iv.toString("hex"); await user.save(); } userSchema.methods.getEncryptionKey = function() { const user = this; const userPassword = user.password; const masterEncryptedText = user.privateKey; const masterPassword = env.key; const iv = Buffer.from(user.publicKey, "hex"); const USER_CIPHER_KEY = crypto.createHash('sha256').update(userPassword).digest(); const MASTER_CIPHER_KEY = crypto.createHash('sha256').update(masterPassword).digest(); const unhexMasterText = Buffer.from(masterEncryptedText, "hex"); const masterDecipher = crypto.createDecipheriv('aes-256-cbc', MASTER_CIPHER_KEY, iv) let masterDecrypted = masterDecipher.update(unhexMasterText); masterDecrypted = Buffer.concat([masterDecrypted, masterDecipher.final()]) let decipher = crypto.createDecipheriv('aes-256-cbc', USER_CIPHER_KEY, iv); let decrypted = decipher.update(masterDecrypted); decrypted = Buffer.concat([decrypted, decipher.final()]); return decrypted; } userSchema.methods.changeEncryptionKey = async function(randomKey: string) { const user = this; const userPassword = user.password; const masterPassword = env.key; const iv = crypto.randomBytes(16); const USER_CIPHER_KEY = crypto.createHash('sha256').update(userPassword).digest(); const cipher = crypto.createCipheriv('aes-256-cbc', USER_CIPHER_KEY, iv); let encryptedText = cipher.update(randomKey); encryptedText = Buffer.concat([encryptedText, cipher.final()]); const MASTER_CIPHER_KEY = crypto.createHash('sha256').update(masterPassword).digest(); const masterCipher = crypto.createCipheriv('aes-256-cbc', MASTER_CIPHER_KEY, iv); let masterEncryptedText = masterCipher.update(encryptedText); masterEncryptedText = Buffer.concat([masterEncryptedText, masterCipher.final()]).toString("hex"); user.privateKey = masterEncryptedText; user.publicKey = iv.toString("hex"); await user.save(); } userSchema.methods.generateTempAuthToken = async function() { // const user = this; // let token = jwt.sign({_id:user._id.toString()}, env.password); // const publicKey = user.publicKey; // const encryptionKey = user.getEncryptionKey(); // const encryptedToken = user.encryptToken(token, encryptionKey, publicKey); // user.tokens = user.tokens.concat({token: encryptedToken}); // await user.save(); // return token; const iv = crypto.randomBytes(16); const user = this; const token = jwt.sign({_id:user._id.toString(), iv}, env.password, {expiresIn:2}); const publicKey = user.publicKey; const encryptionKey = user.getEncryptionKey(); const encryptedToken = user.encryptToken(token, encryptionKey, iv); user.tempTokens = user.tempTokens.concat({token: encryptedToken}); await user.save(); return token; } userSchema.methods.generateTempAuthTokenVideo = async function(cookie: string) { const iv = crypto.randomBytes(16); const user = this; const token = jwt.sign({_id:user._id.toString(), cookie, iv}, env.password, {expiresIn:"5h"}); //const publicKey = user.publicKey; const encryptionKey = user.getEncryptionKey(); const encryptedToken = user.encryptToken(token, encryptionKey, iv); //user.tempTokens = user.tempTokens.concat({token}); user.tempTokens = user.tempTokens.concat({token: encryptedToken}); await user.save(); return token; } const User = mongoose.model("User", userSchema); export default User;