Returning null from native methods using JNI

Question

I have some native code which returns a jbyteArray (so byte[] on the Java side) and I want to return null. However, I run into problems if I simply return 0 in place of the jbyteArray.

Some more information: The main logic is in Java, the native method is used to encode some data into a byte stream. don;t ask.. it has to be done like this. Recently, the native code had to be changed a bit and now it runs horribly horrible slow. After some experimentation, which included commenting out all code in the native method before the return, it turns out that returning 0 causes the slowdown. When returning an actual jbyteArray, everything is fine.

Method signatures for my code:

On the C++ side:

extern "C" JNIEXPORT jbyteArray JNICALL Java_com_xxx_recode (JNIEnv* env, jclass java_this, jbyteArray origBytes, jobject message)

On the Java side:

private static native byte[] recode(byte[] origBytes, Message message);

The native code looks something like this:

jbyteArray javaArray;
if (error != ERROR) {
    // convert to jbyteArray
    javaArray = env->NewByteArray((jsize) message.size);
    env->SetByteArrayRegion(java_array, 0, message.size, reinterpret_cast<jbyte*>(message.buffer()));
    if (env->ExceptionOccurred()) {
        env->ExceptionDescribe();
        error = ERROR;
    }
}
if (error == ERROR) {
    return 0; // Does NOT work - doesn't crash, just slows everything down horrible.
}
else {
    return javaArray; // Works perfectly.
}

Does anyone know of any reasons that this could happen? Is it valid to return NULL from a native method in place of a jbyteArray, or is there another procedure to return null back to Java. Unfortunately, I had no luck on Google.

Thanks!

EDIT: Added additional information.

Answer 1

I do not like the solution to return NULL. If possible you should return some Empty implementations like

return new ArrayList();
return new byte[0];
return new EmptySomeObjectImpl();

Than you do not have worried about NullPointerExceptions

if (error == ERROR) {
    return env->NewByteArray(0);
}

EDIT

Try to return this always if you dont want to implement the EmptyObjects.

if (error == ERROR) {
     return javaSrray; // Please test it and than return javaSrray always without if else
}
else {
    return javaSrray; // Works perfectly.
}

Answer 2

Have you tried returning a NULL reference?

This is untested (don't have a JNI development environment at hand at the moment) but you should be able to create a new global reference to NULL and return it like this:

return (*env)->NewGlobalRef(env, NULL);

EDIT That being said, you check if an exception occurs, but do not clear it. That, as far as I can understand, means that it is still "thrown" in the Java layer, so you should be able to use just that as an error indicator; then it does not matter what the function returns. In fact, calling a JNI function other than ExceptionClear()/ExceptionDescribe() when an exception is thrown is not "safe" according to the documentation. That the functions is "slow" might be caused by the ExceptionDescribe() function writing debugging information.

So, if I understand this correctly, this should be a well-behaved function throwing an exception the first time an error occurs, and returning NULL on each subsequent call (until 'error' is cleared):

if (error != ERROR) {
    jbyteArray javaArray = env->NewByteArray((jsize) message.size);
    env->SetByteArrayRegion(javaArray, 0, message.size, reinterpret_cast<jbyte*>(message.buffer()));
    if (env->ExceptionOccurred()) {
        error = ERROR;
        return 0;
    }
    return javaArray;
} else {
    return env->NewGlobalRef(NULL);
}

Again, this is untested since I dont have a JNI environment available right now.

Answer 3

There's some asymmetry in your code that struck my eye: you never decide upon the type of object to return, except when returning 'nothing'. Apparently the env object decides how to allocate a javaSrray, so why not ask it to return some kind of empty array? It may be possible that the 0 that you return needs to be handled in a special way while marshaling between jni and java.