I'm trying to encrypt/decrypt some files, which I will be reading/writing using FileIn/OutputStreams piped through CipherIn/OutputStreams. Fairly simple in concept, and I've gotten this to work using raw byte arrays and Cipher.doFinal. So I know my encryption parameters (bit size, iv size, etc.) are correct. (Or at least functional?)

I'm able to write data through a CipherOutputStream just fine. However, when I try to read that data back through a CipherInputStream, it hangs indefinitely.

The only related problem I've found remains unanswered, and is potentially fundamentally different from my problem, as my problem will always have all the data available on disk, as opposed to the related problem's reliance on Sockets.

I've tried a number of solutions, the most obvious one being changing the buffer size (data = new byte[4096];). I've tried a number of values, including the size of the plaintext and the size of the encrypted data. None of these values work. The only solution I've found is avoiding using a CipherInputStream altogether, and instead relying on Cipher.doFinal and Cipher.update.

Am I missing something? It would be very nice to be able to use a CipherInputStream, rather than having to reinvent the wheel by using Cipher.update.


private static final String AES_ALG = "aes_256/gcm/nopadding";
private static final int GCM_TAG_SIZE = 128;

private static void doEncryptionTest() throws NoSuchAlgorithmException, NoSuchPaddingException, InvalidKeyException,
        InvalidAlgorithmParameterException, FileNotFoundException, IOException
    File f = new File("encrypted_random_data.dat");
    // 12-byte long iv
    byte[] iv = new byte[] {0x27, 0x51, 0x34, 0x14, -0x65, 0x4d, -0x67, 0x35, -0x63, 0x11, -0x02, -0x05};
    // 256-bit long key
    byte[] keyBytes = new byte[] {0x55, -0x7f, -0x17, -0x29, -0x68, 0x25, 0x29, 0x5f, -0x27, -0x2d, -0x4d, 0x1b,
            0x25, 0x74, 0x57, 0x35, -0x23, -0x1b, 0x12, 0x7c, 0x1, -0xf, -0x60, -0x42, 0x1c, 0x61, 0x3e, -0x5,
            -0x13, 0x31, -0x48, -0x6e};
    SecretKey key = new SecretKeySpec(keyBytes, "AES");

    OutputStream os = encryptStream(key, iv, f);

    System.out.println("generating random data...");
    // 24MB of random data
    byte[] data = new byte[25165824];
    new Random().nextBytes(data);

    System.out.println("encrypting and writing data...");


    InputStream is = decryptStream(key, iv, f);

    System.out.println("reading and decrypting data...");
    // read the data in 4096 byte packets
    int n;
    data = new byte[4096];
    while ((n = is.read(data)) > 0)
        System.out.println("read " + n + " bytes.");


private static OutputStream encryptStream(SecretKey key, byte[] iv, File f) throws NoSuchAlgorithmException,
        NoSuchPaddingException, InvalidKeyException, InvalidAlgorithmParameterException, FileNotFoundException
    GCMParameterSpec spec = new GCMParameterSpec(GCM_TAG_SIZE, iv);
    Cipher enc = Cipher.getInstance(AES_ALG);
    enc.init(Cipher.ENCRYPT_MODE, key, spec);

    OutputStream os = new CipherOutputStream(new FileOutputStream(f), enc);
    return os;

private static InputStream decryptStream(SecretKey key, byte[] iv, File f) throws NoSuchAlgorithmException,
        NoSuchPaddingException, InvalidKeyException, InvalidAlgorithmParameterException, FileNotFoundException
    GCMParameterSpec spec = new GCMParameterSpec(GCM_TAG_SIZE, iv);
    Cipher dec = Cipher.getInstance(AES_ALG);
    dec.init(Cipher.DECRYPT_MODE, key, spec);

    InputStream is = new CipherInputStream(new FileInputStream(f), dec);
    return is;

1 Answer 1


It doesn't hang, it's just very slow. The CipherInputStream has a fixed input buffer of size 512, meaning it invokes the Cipher#update(byte[], int, int) method with at most 512 bytes at a time. Decrypting manually with bigger buffer sizes makes it a lot faster.

The reason is that calling update 50 000 times with 512 bytes takes a lot longer than calling it, say, 400 times with 65 kilobytes. I'm not sure why exactly, but there seems to be a constant overhead that you have to pay for every call to update, regardless of the amount of data you pass it.

Additionally be aware that you cannot use AES GCM to decrypt large files. By design, Sun's implementation of the cipher buffers the whole ciphertext in memory before decrypting it. You'd have to split the plaintext into small enough chunks and encrypt each chunk individually.

See also https://crypto.stackexchange.com/questions/20333/encryption-of-big-files-in-java-with-aes-gcm and How come putting the GCM authentication tag at the end of a cipher stream require internal buffering during decryption?.

  • Oh! You're right. It's strange to me that it hangs only on the first call of CipherInputStream.read, blocking the "read n bytes" line. It's as if it's ignoring the buffer that I pass, opting to read the entire stream on the first call to read. Anyway, I've certainly waited long enough in my larger project, so I must have an error in it. Thanks for your help!
    – Steven
    Mar 7, 2020 at 11:25
  • So I dug a bit deeper and it looks like the AES GCM cipher returns the plaintext only after doing doFinal. All intermediate updates return 0 bytes of plaintext: github.com/JetBrains/jdk8u_jdk/blob/…
    – Lorenz
    Mar 7, 2020 at 13:32
  • Because Sun chose to put the authentication tag at the end of the stream, update basically just buffers data and doFinal does all the work.
    – Lorenz
    Mar 7, 2020 at 13:47
  • Thanks for the additional information. After looking into it for a bit myself, I've realized that Java's GCM library is pretty awful. So, I've decided to use bouncycastle, which actually allows me to use ChaCha20 in Java 1.8, which is exciting!
    – Steven
    Mar 7, 2020 at 15:52

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