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I am new to the JNI area and my aim is to study the native methods of java.lang.Thread such as registerNatives and start0() so that I get to understand at the OS level what are the OS operations that happen when a Thread is a)created b)started

So I cam across various tutorials for JNI so as to understand just the basics. It looks like there are 4 main steps a) write the declaration of the native method(s) in a class (like start0() in b) use javah tool in jdk/bin to generate a .h file c) include these generated .h files and other common .h files in jdk/include to the c/c++ project env d) write the required c++ function.

Please correct me if I have missed a step.

Questions- 1) When I apply the step b) to a standard java file like, I couldn't find something like Thread.h in the JDK and it's source. What should be the exact location of the same ? I got the link of Thread.h in apache harmony and this is exactly the same file which I expected to be there in jdk. 2) I see a file called Thread.C at jdk\src\share\native\java, this file includes the file I expected in point number 1, java_lang_Thread.h. Thread.C file contains code

Java_java_lang_Thread_registerNatives(JNIEnv *env, jclass cls)

{ (*env)->RegisterNatives(env, cls, methods, ARRAY_LENGTH(methods)); } Ideally I would have expected this code to be there in Thread.h, why is it there in Thread.C and what is it's significance ? 3)There is a file called thread.cpp at openjdk\hotspot\src\share\vm\runtime and it contains all the method definitions, now starting from Thread.h

JNIEXPORT void JNICALL Java_java_lang_Thread_start(JNIEnv *, jobject);

how can we map it to Thread.start because I couldn't notice a mapping between start0() to start(). 4) Since I am a java programmer and may have hard time understanding c++ code in Thread.CPP, could someone guide me to a link which may contain theory of these methods like set_stack_base(NULL) etc ?

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closed as too broad by EJP, Raedwald, Ganesh Sittampalam, quickshiftin, Matt Dec 21 '13 at 21:23

There are either too many possible answers, or good answers would be too long for this format. Please add details to narrow the answer set or to isolate an issue that can be answered in a few paragraphs.If this question can be reworded to fit the rules in the help center, please edit the question.

There are a whole lot of XY questions here. What is it you are actually trying to discover? – EJP Dec 21 '13 at 9:05

1 Answer 1

up vote 0 down vote accepted

I do not have a link to the jdk or the java threading source. Perhaps if you provided one, I could solve your problem.

However, what I gathered from your question is: "How does the Thread.h link to the Thread.cpp?" If that is what you are asking then think of it this way:

Thread.h just contains a bunch of declarations. Similar to that of a Java interface. Thread.c contains the implementation of that interface.

As for my second guess as to what you're asking: "How does java create a native thread?".

If I had to take a huge guess at Java creating a thread on Windows, I'd say the definition is either written using WINAPI (windows only) or the C++ stl (portable):

Suppose you have a java Threading class:

public class Threading {
    static{ System.LoadLibrary("Threading"); }

    private Runnable r = null;
    private native void StartNativeThread(Runnable r);

    public Threading(Runnable r) {
        this.r = r;

    public void start() {

The above class is passed a runnable in its constructor. When you call start, it calls the native function "StartNativeThread" and that function is going to take the runnable as a parameter. On the C++ side, it will create a thread and that thread will call which it got from the java side.


//object that will hold all thread information.
struct ThreadParams
    JNIEnv* env;
    jobject runnable;

//function that the thread will call.
DWORD __stdcall RunnableThreadProc(void* ptr)
    ThreadParams* p = reinterpret_cast<ThreadParams*>(ptr); //get our thread info from the parameter.
    JNIEnv* env = p->env; //grab our env.
    jobject runnable = p->runnable; //grab our runnable object.
    delete p; //since we allocated on the heap using new, we must delete from the heap.
    //this is because c++ does not have garbage collection.

    jclass RunnableInterface = env->GetObjectClass(runnable); //get our java runnable interface instance.
    jmethodID Run = env->GetMethodID(RunnableInterface, "run","()V"); //get the run method function pointer.
    env->CallObjectMethod(RunnableInterface, Run); //call;

JNIEXPORT void JNICALL Java_JNIExample_StartNativeThread(JNIEnv* env, jobject obj, jobject runnable)
    ThreadParams* ptr = new ThreadParams(); //create an object to store our parameters.
    ptr->env = env;  //store the env parameter.
    ptr->runnable = runnable; //store the runnable object.

    //create a thread that calls "RunnableThreadProc" and passes it "ptr" as a param.
    CreateThread(0, 0, RunnableThreadProc, reinterpret_cast<void*>(ptr), 0, 0); 

Now the above looks quite complicated to be completely honest but that is what WINAPI is. It is an API written for windows in the C Language.

If you have a C++x11 compiler and wish to avoid winapi and use STL-C++, this can be done in a couple lines. Assume that we have the same java class as above, then our function becomes:

JNIEXPORT void JNICALL Java_JNIExample_StartNativeThread(JNIEnv* env, jobject obj, jobject runnable)
        jclass RunnableInterface = env->GetObjectClass(runnable);
        jmethodID Run = env->GetMethodID(RunnableInterface, "run","()V");
        env->CallObjectMethod(RunnableInterface, Run);

Note that [&]{....} is a Lambda Function. It means a function that can be created inside of another function or parameter.

The above can also be translated / is equivalent to:

void ThreadProc(JNIEnv* env, jobject runnable)
    jclass RunnableInterface = env->GetObjectClass(runnable);
    jmethodID Run = env->GetMethodID(RunnableInterface, "run","()V");
    env->CallObjectMethod(RunnableInterface, Run);

JNIEXPORT void JNICALL Java_JNIExample_StartNativeThread(JNIEnv* env, jobject obj, jobject runnable)
    std::thread(ThreadProc, env, obj).detach();

Now implementing other things like stop and pause is just as easy. You simply do that on the java side inside your runnable. OR you can do it on the C++ side using WINAPI's TerminateThread and WaitObject and the likes. OR if you choose to use STL-C++ then you'd use an std::condition_variable.

I hope that clears up some things. If you have any further questions, you can just post a comment or make a new thread. Up to you. Otherwise, if I missed something or interpreted your question wrong, then please clarify it.

EDIT.. So for the actual implementation, we can see that Thread.c includes jvm.h. Thus we must find jvm.h and jvm.cpp.

A quick search comes up with:




If we now search for any of the functions from thread.c.. We can see in thread.c that start0 is mapped to JVM_StartThread, and all other thread functions is mapped to JVM_XXXXSomeThreadFunc...

We must now look for these JVM_ functions within JVM.h and JVM.cpp. Once found, you have the source of how it is all done.

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@CantChooseUsernames-Thanks for your answer The link to Thread.C is [link]… The link to Thread.CPP is [link]… As I said Thread.h , I could not find the location in the jdk source code and would need assistance. – 100pipers Dec 21 '13 at 12:57
I ended the end of my post to reflect the links to the JVM's thread functions. – Brandon Dec 21 '13 at 13:49

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