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We have an app, which strongly relies on AES encryption and decryption. We want to support as many devices as possible, but some of them (especially crappy tablets and I don't only mean Chinese no-names, but also some low-end tablets from Samsung or Lenovo) are simply slow to encrypt and decrypt.

We have used Android 23 in our app and we were able to identify some kind of level below which our app will simply not work well for the end user (they would have to wait too long for the content to appear). It was a lot of tablets that we had to rule out for use with our app, but well, we were able to live with that.

Recently some of our dependencies started to require a newer version of Android. For example, we wanted to switch to Facebook Core SDK, instead of the full Facebook SDK to save some space. But it depends on the Android support package v25 and we won't be able to build it because proguard refuses to process the sources.

So a decision was made to move the project to a newer Android. It went quite smooth, apart from the performance impact it had on our encryption/decryption mechanism. Suddenly it was MUCH slower. Tablets we would rate as "working well enough" were extremely slow.


I've started to investigate what happened during our migration from Android 23 to Android 26, which would cause a HUGE performance drop in AES encryption/decryption.

I've created an app, which works as kind of a benchmark. By making a simple change:

  • compileSdkVersion 23->26
  • targetSdkVersion 23->26
  • compile 'com.android.support:appcompat-v7:VERSION' 23.4.0 -> 26.+

the performance drop is huge.

Here's an example result from one of the tablets:

Android 23: 136959 B/s
Android 26: 34419 B/s

That's almost 4x slower. I can reproduce these results on all of the devices I have to test. Sure, on new, high-performance devices it's barely visible, but on old devices, it's clear.

I've searched the web for any details on this, but I have found nothing. I would really be grateful for someone to shed some light on this issue.

I really hope I have made a mistake somewhere, but I wasn't able to find it.

For encryption/decryption, we use the SpongyCastle library.

The sources of my Crypto Tester app are available on GitHub: https://github.com/krstns/cryptoTester

There's the master branch with Android 23 configuration and master_26 branch with Android 26 configuration.

For the sake of completeness, I will paste here the method which is used for decryption:

 * Decrypt the given data with the given key
 * @param data The data to decrypt
 * @return The decrypted bytes
public static byte[] decrypt(byte[] data, byte[] key, byte[] iv) {
    if (key == null || iv == null) {
        throw new AssertionError("DECRYPT: Key or iv were not specified.");

    // make sure key is AES256
    byte[] bookKeyData = new byte[32];
    byte[] outBuf;
    System.arraycopy(key, 0, bookKeyData, 0, key.length);

    try {
        PaddedBufferedBlockCipher cipher = new PaddedBufferedBlockCipher(new CBCBlockCipher(new AESFastEngine()));
        cipher.init(false, new ParametersWithIV(new KeyParameter(bookKeyData), iv));
        int outputSize = cipher.getOutputSize(data.length);
        outBuf = new byte[cipher.getOutputSize(outputSize)];
        int processed = cipher.processBytes(data, 0, data.length, outBuf, 0);
        if (processed < outputSize) {
            processed += cipher.doFinal(outBuf, processed);
        return Arrays.copyOfRange(outBuf, 0, processed);

    } catch (Exception e) {

    return null;

Oh and.. yes. I am aware this is CBC, I am aware of why it should not be used etc. Currently, it is done on purpose. This is not the topic of the question, so let's not go there.

  • Is the encryption/decryption algorithm supposed to use hardware acceleration?
    – jurez
    Commented Oct 16, 2017 at 12:15
  • I do not know, I would assume this is done behind the scenes by the operating system/libraries.
    – Krystian
    Commented Oct 16, 2017 at 13:40
  • 136959 B/s (136 kB/s) is kind of crappy in its own right. Maybe you need to investigate what is wrong in general for both machines. From the back of a napkin, that might be OK for a 200 MHz processor. You should start comparing cycles-per-byte (cpb). That will sidestep processor speeds and examine algorithm and implementation efficiency. You should aim for 30 to 60 cpb in software on 32-bit ARM, and 2 to 5 cpb in hardware on 64-bit ARM. A 900 MHz Beaglebone (A-32) achieves 45 cpb or 20 MB/s. A 2.0 GHz Opeteron (Aarch64) achieves 1.0 cpb and 1.8 GB/s.
    – jww
    Commented Oct 17, 2017 at 11:44
  • @jww it's quite possible that simply my calculations are crap ;) but the values show the scale of the performance drop, even though they might not be B/s. I will investigate this further. It cannot be 136kB/s if it takes few seconds to decrypt 10MB. Sorry about that.
    – Krystian
    Commented Oct 17, 2017 at 12:11

2 Answers 2


You seem to be using SpongyCastle directly. SpongyCastle is the Android version of BouncyCastle (BC). BC however is a software only implementation of cryptographic algorithms and surrounding utility API's.

If you really want to speed up AES calculations you should be using the Java Security API instead, e.g. using the javax.crypto.Cipher class. This will allow hardware acceleration and native code execution on platforms that support it. Generally this will be all platforms as the main crypto functionality is implemented using OpenSSL libraries on the newer platforms.

Generally it is recommended to only use the Bouncy Castle "lightweight" API's (such as the software AES implementations you are using) whenever the required functionality is not available within the provided Cryptography providers. This is definitely not the case for algorithms such as AES/CBC.

Currently your library depends upon the byte code execution of the Bouncy Castle implementation, which is much slower. Note also that Bouncy Castle doesn't like debugging environments much, so make sure it runs without delays when testing the performance - if possible without debugger support.

  • Thanks a lot Maarten! This is great, I wasn't aware of that, I thought it would just work wherever it can!
    – Krystian
    Commented Oct 20, 2017 at 13:35
  • 1
    I just wanted to add, that with the changes @MaartenBodewes proposed, my benchmark sped up 38x. Quite a performance bump!
    – Krystian
    Commented Oct 21, 2017 at 10:11

I have finally found a solution.

When I tried to create an issue on SpongyCastle GitHub I have noticed there are newer releases than 1.54... Well silly me for not investigating this earlier.

Just a word of caution, it didn't work straight away in my main project. The encryption/decryption mechanism is part of a library project which is then included in my main project. Please remember to also update your main project, or else it will still be very slow.

So it worked for me after:

  • changing the spongy castle version to 1.56
  • changing compileSdkVersion to 26
  • changing buildToolsVersion to 26.0.2
  • changing targetSdkVersion to 26

in both, library project and main project.

  • Are you able to tell what changed in spongy castle so that it got faster? Commented Oct 19, 2017 at 7:42
  • no, not a clue. I didn't have time to investigate it further. It's funny that in my test app, the only thing I had to do was to change the version number and it started to work full speed!
    – Krystian
    Commented Oct 19, 2017 at 12:58

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