Android M provides AES support via the AndroidKeyStore however I can not find any combination of generating a key that provides a method of full encryption and decryption without a user password/device locking. It appears that my current approach is appropriate for these requirements as the key store is storing my key, I can load the key and perform encryption and in the case that I hold onto the IV from the encryption process I can decrypt the data.
Unfortunately in the real world use case I can not hold onto the IV for decryption at a later time without writing it to disk, maybe this is what I should be doing?
I have glanced at the updated key store and related testing in the SDK but was unable to find any test cases I could use as example. The examples also seem to be devoid of actually using AndroidKeyStore generated SecretKeys without tying them to device locking/finger prints.
I have created a repository to try and highlight what I have done along with some comments explaining where my issue is. The relevant code is also included below.
For clarity, my question is simply how can I generate an AndroidKeyStore backed AES SecretKey that allows me to encrypt and decrypt via cipher input/output streams without writing the IV to disk or using the fingerprint/device locking approaches?
final String suchAlphabet = "abcdefghijklmnopqrstuvwxyz"; KeyStore keyStore = KeyStore.getInstance(ANDROID_KEY_STORE); keyStore.load(null); /* KEY GENERATION */ // Define the key spec KeyGenParameterSpec aesSpec = new KeyGenParameterSpec.Builder(ALIAS, KeyProperties.PURPOSE_ENCRYPT | KeyProperties.PURPOSE_DECRYPT) .setBlockModes(KeyProperties.BLOCK_MODE_CBC) .setEncryptionPaddings(KeyProperties.ENCRYPTION_PADDING_PKCS7) .setKeySize(128) .build(); // Create the secret key in the key store KeyGenerator keyGenerator = KeyGenerator.getInstance(KeyProperties.KEY_ALGORITHM_AES, ANDROID_KEY_STORE); keyGenerator.init(aesSpec); keyGenerator.generateKey(); Cipher cipher; SecretKey secretKey; /* ENCRYPTION */ // Load the secret key and encrypt secretKey = ((KeyStore.SecretKeyEntry) keyStore.getEntry(ALIAS, null)).getSecretKey(); cipher = Cipher.getInstance(TRANSFORMATION); cipher.init(Cipher.ENCRYPT_MODE, secretKey); ByteArrayOutputStream outputStream = new ByteArrayOutputStream(); CipherOutputStream cipherOutputStream = new CipherOutputStream(outputStream, cipher); cipherOutputStream.write(suchAlphabet.getBytes()); cipherOutputStream.flush(); cipherOutputStream.close(); /* DECRYPTION */ // Load the secret key and decrypt secretKey = ((KeyStore.SecretKeyEntry) keyStore.getEntry(ALIAS, null)).getSecretKey(); // The following two lines attempt to represent real world usage in that the previous line loaded // the key from the store and the next two lines attempt to create the cipher and then initialize // the cipher such that an IV can be extracted as it does not seem that you can use the spec or the // parameters. Interestingly, the following two lines only 'half' such that a-p fail to decrypt and // q-z decrypt successfully 100% of the time. Leaving the lines commented results an in a successful // decryption of the alphabet but this is not a usable scenario // // cipher = Cipher.getInstance("AES/CBC/PKCS7Padding"); // cipher.init(Cipher.ENCRYPT_MODE, secretKey); IvParameterSpec ivParameterSpec = new IvParameterSpec(cipher.getIV()); cipher = Cipher.getInstance(TRANSFORMATION); cipher.init(Cipher.DECRYPT_MODE, secretKey, ivParameterSpec); byte in = new byte[suchAlphabet.getBytes().length]; ByteArrayInputStream inputStream = new ByteArrayInputStream(outputStream.toByteArray()); CipherInputStream cipherInputStream = new CipherInputStream(inputStream, cipher); IOUtils.readFully(cipherInputStream, in); cipherInputStream.close(); /* VERIFY */ String muchWow = new String(in); assertEquals(suchAlphabet, muchWow);