The other comments and answers here all seem to be suggesting that you just rely on the garbage collector or tell the garbage collector to run. That is not the correct answer for memory allocated in C and being used in Java via JNI.
It looks like that
execution() does free the memory. The last line you show us is
free(data). Still, to answer your the question as you asked it, the answer is "not directly." If you have the ability to add to the C code, you could create another C function which frees the data and then call that using JNI. Perhaps there is more that we are not seeing which relates better to your concern about the memory leak?
Also, be careful about freeing memory allocated by a library you are using. You should make sure that the library doesn't still need it and is leaking it before you go trying to free it.
And now back to memory management in general...
Java is indeed a garbage-collected language. This means that you do not specifically delete objects. Instead, you make sure there are no references to it, then the garbage collector takes care of the memory management. This does not mean that Java is free from memory leaks, as there are ways to accidentally keep a reference hanging around such that the object never gets garbage collected. If you have a situation like this, you might want to read up on the different kinds of references in Java (strong/weak/etc.).
Again, this is not the problem here. This is a C/Java hybrid, and the code in question is in C being called by Java. In C, you allocate the memory you want to use and then you need to
free the memory yourself when you are done with it. Even if the C code is being run by Java via the JNI, you are still responsible for your own memory. You cannot just
malloc() a bunch of memory and expect the Java garbage collector to know when to clean it up. Hence the OP's question.
If you need to add the functionality yourself to do a
free, even without the source code for the C part, you might still be able to write your own C interface for freeing the memory if you have access to the pointer to the memory in question. You could write basically a tiny library that just frees the memory for you, make the JNI interface for it, and pass the pointer to that. If you go this route then, depending on your OS, you might need to guarantee that your tiny free library's native code is running in the same process as the rest of the native code, or if not the same process then at least that the process you run it from has write access to the memory owned by the other code's process; this memory/process issue is probably not an issue in your case, but I'm throwing it out there for completeness.