Mercurial > cgi-bin > hgweb.cgi > PassMan
view src/main/kotlin/name/blackcap/passman/Encryption.kt @ 8:698c4a3d758d
Some code clean-up.
author | David Barts <n5jrn@me.com> |
---|---|
date | Fri, 23 Sep 2022 20:59:52 -0700 |
parents | 711cc42e96d7 |
children |
line wrap: on
line source
package name.blackcap.passman import java.nio.ByteBuffer import java.nio.CharBuffer import java.nio.charset.Charset import java.nio.charset.StandardCharsets import java.security.SecureRandom import javax.crypto.Cipher import javax.crypto.SecretKey import javax.crypto.SecretKeyFactory import javax.crypto.spec.IvParameterSpec import javax.crypto.spec.PBEKeySpec import javax.crypto.spec.SecretKeySpec import javax.security.auth.Destroyable class Encryption(passwordIn: CharArray, saltIn: ByteArray) : Destroyable { private companion object { const val ITERATIONS = 390000 const val IV_LENGTH = 16 const val KEY_LENGTH = 256 const val ENCRYPTION_ALGORITHM = "AES/CBC/PKCS5Padding" const val KEY_ALGORITHM = "AES" const val SECRET_KEY_FACTORY = "PBKDF2WithHmacSHA256" val CHARSET : Charset = StandardCharsets.UTF_8 val ZERO_IV = ByteArray(IV_LENGTH).apply { clear() } } private val secretKey = getSecretKey(passwordIn, saltIn) private val secureRandom = SecureRandom() fun encrypt(plaintext: CharArray): ByteArray { val iv = ByteArray(IV_LENGTH).also { secureRandom.nextBytes(it) } return encrypt(plaintext, iv) } private fun encrypt(plaintext: CharArray, iv: ByteArray): ByteArray { val cipher = Cipher.getInstance(ENCRYPTION_ALGORITHM) cipher.init(Cipher.ENCRYPT_MODE, secretKey, ivFactory(iv)) val inBuffer = CHARSET.encode(CharBuffer.wrap(plaintext)) val outBuffer = ByteBuffer.allocate(cipher.getOutputSize(inBuffer.limit()) + IV_LENGTH) outBuffer.put(iv) cipher.doFinal(inBuffer, outBuffer) return outBuffer.array() } fun encryptFromString(plaintext: String): ByteArray = encrypt(plaintext.toCharArray()) fun encryptFromString0(plaintext: String): ByteArray = encrypt(plaintext.toCharArray(), ZERO_IV) fun decrypt(ciphertext: ByteArray): CharArray { val cipher = Cipher.getInstance(ENCRYPTION_ALGORITHM) cipher.init(Cipher.DECRYPT_MODE, secretKey, ivFactory(ciphertext)) val bytes = cipher.doFinal(ciphertext, IV_LENGTH, ciphertext.size - IV_LENGTH) val charBuffer = CHARSET.decode(ByteBuffer.wrap(bytes)) bytes.clear() val ret = CharArray(charBuffer.limit()) charBuffer.run { rewind() get(ret) zero() } return ret } fun decryptToString(ciphertext: ByteArray): String = String(decrypt(ciphertext)) override fun destroy() { secretKey.destroy() } override fun isDestroyed(): Boolean { return secretKey.isDestroyed } protected fun finalize() { destroy() } private fun getSecretKey(password: CharArray, salt: ByteArray): SecretKey { val factory = SecretKeyFactory.getInstance(SECRET_KEY_FACTORY) val spec = PBEKeySpec(password, salt, ITERATIONS, KEY_LENGTH) return SecretKeySpec(factory.generateSecret(spec).encoded, KEY_ALGORITHM) } private fun ivFactory(ciphertext: ByteArray) = IvParameterSpec(ciphertext, 0, IV_LENGTH) } fun ByteArray.clear() = indices.forEach { this[it] = 0 } fun CharArray.clear() = indices.forEach { this[it] = '\u0000' } fun CharBuffer.zero() { clear() array().clear() }