I'm stuck for a moment on this case.

I have a webview on Android 4.4.3 where I have a webapp who has float32array containing binary data. I would like to pass that array to the Java Android via a function binded with JavascriptInterface. However, it seems like in Java, I can only pass primitive types like String, int etc...

Is there a way to give to Java this arrayBuffer ?

Thank you !

  • Can you create the array on a server and have the Java code in your android app request it via HTTP? – Code-Apprentice Jul 20 '17 at 23:29

Ok, so following a chat with Google engineering and after reading the code I've reached the following conclusions.

Passing binary data efficiently is impossible

It is impossible to pass binary data efficiently between JavaScript and Java through a @JavascriptInterface:

On the Java side:

void onBytes(byte[] bytes) {
   // bytes available here

And on the JavaScript side:

var byteArray = new Uint8Array(buffer);
var arr = new Uint8Array(byteArray.length);
for(var i = 0; i < byteArray.length; i++) {
  arr[i] = byteArray[i];

In the code above (from my old answer) and in Alex's - the conversion performed for the array is brutal:

case JavaType::TypeArray:
  if (value->IsType(base::Value::Type::DICTIONARY)) {
    result.l = CoerceJavaScriptDictionaryToArray(
        env, value, target_type, object_refs, error);
  } else if (value->IsType(base::Value::Type::LIST)) {
    result.l = CoerceJavaScriptListToArray(
        env, value, target_type, object_refs, error);
  } else {
    result.l = NULL;

Which in turn coerces every array element to a Java object:

for (jsize i = 0; i < length; ++i) {
    const base::Value* value_element = null_value.get();
    list_value->Get(i, &value_element);
    jvalue element = CoerceJavaScriptValueToJavaValue(
        env, value_element, target_inner_type, false, object_refs, error);
    SetArrayElement(env, result, target_inner_type, i, element);

So, for a 1024 * 1024 * 10 Uint8Array - ten million Java objects are created and destroyed on each pass resulting in 10 seconds of CPU time on my emulator.

Creating an HTTP server

One thing we tried was creating an HTTP server and POSTing the result to it via an XMLHttpRequest. This worked - but ended up costing about 200ms of latency and also introduced a nasty memory leak.

MessageChannels are slow

Android API 23 added support for MessageChannels, which can be used via createWebMessageChannel() as shown in this answer. This is very slow, still serializes with GIN (like the @JavascriptInterface method) and incurs additional latency. I was not able to get this to work with reasonable performance.

It is worth mentioning that Google said they believe this is the way forward and hopes to promote message channels over @JavascriptInterface at some point.

Passing a string works

After reading the conversion code - one can see (and this was confirmed by Google) that the only way to avoid many conversions is to pass a String value. This only goes through:

case JavaType::TypeString: {
  std::string string_result;
  result.l = ConvertUTF8ToJavaString(env, string_result).Release();

Which converts the result once to UTF8 and then again to a Java string. This still means the data (10MB in this case) is copied three times - but it is possible to pass 10MB of data in "only" 60ms - which is a lot more reasonable than the 10 seconds the above array method takes.

Petka came up with the idea of using 8859 encoding which can convert a single byte to a single letter. Unfortunately it is not supported in JavaScript's TextDecoder API - so Windows-1252 which is another 1 byte encoding can be used instead.

On the JavaScript side one can do:

var a = new Uint8Array(1024 * 1024 * 10); // your buffer
var b = a.buffer
// actually windows-1252 - but called iso-8859 in TextDecoder
var e = new TextDecoder("iso-8859-1"); 
var dec = e.decode(b);
proxy.onBytes(dec); // this is in the Java side.

Then, in the Java side:

public void onBytes(String dec) throws UnsupportedEncodingException
    byte[] bytes = dec.getBytes("windows-1252");
    // work with bytes here

Which runs in about 1/8th the time of direct serialization. It's still not very fast (since the string is padded to 16 bits instead of 8, then through UTF8 and then to UTF16 again). However, it runs in reasonable speed compared to the alternative.

After speaking with the relevant parties who are maintaining this code - they told me that it's as good as it can get with the current API. I was told I'm the first person to ask for this (fast JavaScript to Java serialization).

  • I'd like to thank CommonWare, Petka and Chromium's Tarbo for helping me and directing me in figuring this out :) – Benjamin Gruenbaum Aug 4 '17 at 12:28
  • I can't get it working as fast with those encodings, the fastest way is using utf-8. It also takes 150-300ms for 3MB. Do you know why this is the case? – Poka Yoke Jun 2 '18 at 0:16
  • What device did you test on? UTF8 is 300ms which is much slower - are you testing on really old devices or with a text encoding polyfill – Benjamin Gruenbaum Jun 2 '18 at 12:01
  • I'm testing on an AndroidTV Nougat, so it's not really old. When I used fixed 1-byte character encodings it took almost as much as copying an array (a couple of seconds). – Poka Yoke Jun 3 '18 at 0:37
  • 1
    I did check every possible byte value (And shipped it to production where it moved hundreds of terabytes every day a year ago). I don't think that JavaScript encoding APIs actually do x-user-defined, might be interesting to check. – Benjamin Gruenbaum Mar 8 '19 at 17:08

It is pretty simple

Init section

 JavaScriptInterface jsInterface = new JavaScriptInterface(this);
 webView.addJavascriptInterface(jsInterface, "JSInterface");


public class JavaScriptInterface {
        private Activity activity;

        public JavaScriptInterface(Activity activiy) {
            this.activity = activiy;
        public void putData(byte[] bytes){
            //do whatever

Js section

  function putAnyBinaryArray(arr) {
        var uint8 = Uint8Array.from(arr);

TypedArray.from polyfill if need : https://developer.mozilla.org/ru/docs/Web/JavaScript/Reference/Global_Objects/TypedArray/from

  • Actually, there is a better way - to use a MessagePort - which avoids the copy in this answer - developer.android.com/reference/android/webkit/… - html.spec.whatwg.org/multipage/… – Benjamin Gruenbaum Jul 30 '17 at 12:17
  • Meaning, it can potentially be twice as fast. This was still the best answer when the bounty expired - so cheers. If you want to update your answer I would appreciate not having to post another one. – Benjamin Gruenbaum Jul 30 '17 at 12:17
  • So, turns out this doesn't really work, it crashes the Chrome process if you try to pass more than 10mb and it will take 10s to pass 10mb (and 1s to pass 1mb) – Benjamin Gruenbaum Aug 2 '17 at 17:40
  • @BenjaminGruenbaum try to slice your array by 1mb. The operation of passing data to android or js it is a heavy process. You really not pass a data, you creating a copy of your data. So it takes twice the memory. – Alex Nikulin Aug 3 '17 at 5:04
  • 1
    I fixed it, I'll post a working answer later this week – Benjamin Gruenbaum Aug 3 '17 at 11:28

Serialise your data into a string, then unserialize in your app.

  • Seems like Cordova does the same. – ShrekOverflow Jul 21 '17 at 1:16

Cloning the ArrayBuffer makes it work - something about a TypedArray backed with an ArrayBuffer doesn't marshall well into Android.

If you copy your ArrayBuffer into a new TypedArray you can avoid the expensive serialization overhead.

On the reader:

void onBytes(byte[] bytes) {
   // bytes available here

And on the JS side:

var byteArray = new Uint8Array(buffer);
var arr = new Uint8Array(byteArray.length);
for(var i = 0; i < byteArray.length; i++) {
  arr[i] = byteArray[i];

Works perfectly fine :)


If you want Sync call, just use base64 encode & decode: (Convert base64 string to ArrayBuffer)

void onBytes(String base64) {
    // decode here

If you want Async call:

You can create http server in Android appliction, and then use "xhr" or "fetch" in javascript side to send binary or string async

And don't use "iso-8859-1" or "windows-1252" mentioned above, it's dangerous !!!
"iso-8859-1" has undefined code which can't be decode between javascript and java. (https://en.wikipedia.org/wiki/ISO/IEC_8859-1)

  • Using iso-8859-1/windows-1252 is a bad idea, but x-user-defined works. Have you compared the performance of this vs base64? – Nuno Cruces Mar 8 '19 at 14:05

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