"use strict"; const crypto = require('crypto'); function arraysIdentical(a, b) { let i = a.length; if (i !== b.length) return false; while (i--) { if (a[i] !== b[i]) return false; } return true; } function shaArray(content) { // we use this as simple checksum and don't rely on its security so SHA-1 is good enough return crypto.createHash('sha1').update(content).digest(); } function pad(data) { let padded = Array.from(data); if (data.length >= 16) { padded = padded.slice(0, 16); } else { padded = padded.concat(Array(16 - padded.length).fill(0)); } return Buffer.from(padded); } function encrypt(key, iv, plainText) { if (!key) { throw new Error("No data key!"); } const plainTextBuffer = Buffer.from(plainText); const cipher = crypto.createCipheriv('aes-128-cbc', pad(key), pad(iv)); const digest = shaArray(plainTextBuffer).slice(0, 4); const digestWithPayload = Buffer.concat([digest, plainTextBuffer]); const encryptedData = Buffer.concat([cipher.update(digestWithPayload), cipher.final()]); return encryptedData.toString('base64'); } function decrypt(key, iv, cipherText) { if (!key) { return "[protected]"; } const decipher = crypto.createDecipheriv('aes-128-cbc', pad(key), pad(iv)); const cipherTextBuffer = Buffer.from(cipherText, 'base64'); const decryptedBytes = Buffer.concat([decipher.update(cipherTextBuffer), decipher.final()]); const digest = decryptedBytes.slice(0, 4); const payload = decryptedBytes.slice(4); const computedDigest = shaArray(payload).slice(0, 4); if (!arraysIdentical(digest, computedDigest)) { return false; } return payload; } function decryptString(dataKey, iv, cipherText) { const buffer = decrypt(dataKey, iv, cipherText); return buffer.toString('utf-8'); } function noteTitleIv(iv) { return "0" + iv; } function noteTextIv(iv) { return "1" + iv; } module.exports = { encrypt, decrypt, decryptString, noteTitleIv, noteTextIv };