/*
- * $Id$
- *
- * Copyright 2006,2007 Martin Quinson, Malek Cherier
+ * Copyright 2006-2012 The SimGrid team
* All right reserved.
*
* This program is free software; you can redistribute
* it and/or modify it under the terms of the license
- *(GNU LGPL) which comes with this package.
+ * (GNU LGPL) which comes with this package.
*/
package org.simgrid.msg;
import java.util.Arrays;
import java.util.Hashtable;
import java.util.Vector;
+import java.lang.Runnable;
import java.util.concurrent.Semaphore;
/**
*
*/
-public abstract class Process extends Thread {
+public abstract class Process implements Runnable {
/**
* This attribute represents a bind between a java process object and
* a native process. Even if this attribute is public you must never
* access to it. It is set automatically during the build of the object.
*/
- public long bind;
-
+ private long bind;
+ /**
+ * Indicates if the process is started
+ */
+ boolean started;
/**
* Even if this attribute is public you must never access to it.
* It is used to compute the id of an MSG process.
*/
public static long nextProcessId = 0;
-
+
/**
* Even if this attribute is public you must never access to it.
* It is compute automatically during the creation of the object.
* The native functions use this identifier to synchronize the process.
*/
public long id;
+
+ /**
+ * Start time of the process
+ */
+ public double startTime = 0;
+ /**
+ * Kill time of the process
+ */
+ public double killTime = -1;
public Hashtable<String,String> properties;
/** The arguments of the method function of the process. */
public Vector<String> args;
- /* process synchronization tools */
- /* give the full path to semaphore to ensure that our own implementation don't get selected */
- protected java.util.concurrent.Semaphore schedBegin, schedEnd;
- private boolean nativeStop = false;
-
/**
* Default constructor (used in ApplicationHandler to initialize it)
*/
protected Process() {
- super();
this.id = nextProcessId++;
this.name = null;
this.bind = 0;
this.args = new Vector<String>();
this.properties = null;
- schedBegin = new java.util.concurrent.Semaphore(0);
- schedEnd = new java.util.concurrent.Semaphore(0);
}
* @param host The host of the process to create.
* @param name The name of the process.
* @param args The arguments of main method of the process.
- *
- */
+ */
public Process(Host host, String name, String[]args) {
- /* This is the constructor called by all others */
this();
-
+ this.host = host;
if (name == null)
throw new NullPointerException("Process name cannot be NULL");
this.name = name;
this.args = new Vector<String>();
if (null != args)
this.args.addAll(Arrays.asList(args));
+
+ this.properties = new Hashtable<String,String>();
+ }
+ /**
+ * Constructs a new process from a host and his name, the arguments of here method function are
+ * specified by the parameter args.
+ *
+ * @param host The host of the process to create.
+ * @param name The name of the process.
+ * @param args The arguments of main method of the process.
+ * @param startTime Start time of the process
+ * @param killTime Kill time of the process
+ *
+ */
+ public Process(Host host, String name, String[]args, double startTime, double killTime) {
+ this();
+ this.host = host;
+ if (name == null)
+ throw new NullPointerException("Process name cannot be NULL");
+ this.name = name;
- try {
- create(host.getName());
- } catch (HostNotFoundException e) {
- throw new RuntimeException("The impossible happened (yet again): the host that I have were not found",e);
- }
+ this.args = new Vector<String>();
+ if (null != args)
+ this.args.addAll(Arrays.asList(args));
+
+ this.properties = new Hashtable<String,String>();
+ this.startTime = startTime;
+ this.killTime = killTime;
}
/**
* The natively implemented method to create an MSG process.
*
*/
public static native int killAll(int resetPID);
- /**
- * This method sets a flag to indicate that this thread must be killed. End user must use static method kill
- *
- * @return
- *
- */
- public void nativeStop() {
- nativeStop = true;
- }
- /**
- * getter for the flag that indicates that this thread must be killed
- *
- * @return
- *
- */
- public boolean getNativeStop() {
- return nativeStop;
- }
/**
* This method kill a process.
- * @param process the process to be killed.
*
*/
- public void kill() {
- nativeStop();
- Msg.info("Process " + msgName() + " will be killed.");
- }
-
+ public native void kill();
/**
* Suspends the process by suspending the task on which it was
* waiting for the completion.
- *
*/
- public native void pause();
+ public native void suspend();
+ /**
+ * Suspends the process by suspending the task on which it was
+ * waiting for the completion.
+ * DEPRECATED: use suspend instead.
+ */
+ @Deprecated
+ public void pause() {
+ suspend();
+ }
/**
* Resumes a suspended process by resuming the task on which it was
* waiting for the completion.
- *
- *
- */
- public native void restart();
+ */
+ public native void resume();
/**
* Tests if a process is suspended.
*
public int getPPID() {
return ppid;
}
+ /**
+ * Set the kill time of the process
+ * @param killTime the time when the process is killed
+ */
+ public native void setKillTime(double killTime);
+
/**
* This static method returns the currently running process.
*
*
*/
public static native Process currentProcess();
- /**
- * Kills a MSG process
- * @param process Valid java process to kill
- */
- final static native void kill(Process process);
/**
* Migrates a process to another host.
*
* @param host The host where to migrate the process.
*
*/
- public static void migrate(Process process, Host host) {
- MsgNative.processMigrate(process, host);
- process.host = null;
- }
+ public native void migrate(Host host);
/**
* Makes the current process sleep until millis millisecondes have elapsed.
* You should note that unlike "waitFor" which takes seconds, this method takes milliseconds.
* FIXME: Not optimal, maybe we should have two native functions.
* @param millis the length of time to sleep in milliseconds.
*/
- public static void sleep(long millis) {
+ public static void sleep(long millis) throws HostFailureException {
sleep(millis,0);
}
/**
* @param millis the length of time to sleep in milliseconds.
* @param nanos additionnal nanoseconds to sleep.
*/
- public native static void sleep(long millis, int nanos);
+ public native static void sleep(long millis, int nanos) throws HostFailureException;
/**
* Makes the current process sleep until time seconds have elapsed.
* @param seconds The time the current process must sleep.
*/
- public native void waitFor(double seconds);
+ public native void waitFor(double seconds) throws HostFailureException;
/**
*
*/
"] args[" + i + "]=" + (String) (this.args.get(i)));
}
/**
- * Exit the process
+ * This method actually creates and run the process.
+ * It is a noop if the process is already launched.
+ * @throws HostNotFoundException
*/
- public native void exit();
-
+ public final void start() throws HostNotFoundException {
+ if (!started) {
+ started = true;
+ create(host.getName());
+ }
+ }
+
/**
* This method runs the process. Il calls the method function that you must overwrite.
*/
public void run() {
String[] args = null; /* do not fill it before the signal or this.args will be empty */
-
//waitSignal(); /* wait for other people to fill the process in */
-
- try {
- schedBegin.acquire();
- } catch(InterruptedException e) {
- }
-
try {
args = new String[this.args.size()];
if (this.args.size() > 0) {
}
this.main(args);
- exit();
- schedEnd.release();
} catch(MsgException e) {
e.printStackTrace();
Msg.info("Unexpected behavior. Stopping now");
System.exit(1);
}
- catch(ProcessKilled pk) {
- if (nativeStop) {
- try {
- exit();
- } catch (ProcessKilled pk2) {
- /* Ignore that other exception that *will* occur all the time.
- * This is because the C mechanic gives the control to the now-killed process
- * so that it does some garbage collecting on its own. When it does so here,
- * the Java thread checks when starting if it's supposed to be killed (to inform
- * the C world). To avoid the infinite loop or anything similar, we ignore that
- * exception now. This should be ok since we ignore only a very specific exception
- * class and not a generic (such as any RuntimeException).
- */
- System.err.println(currentThread().getName()+": I ignore that other exception");
- }
- Msg.info(" Process " + ((Process) Thread.currentThread()).msgName() + " has been killed.");
- schedEnd.release();
- }
- else {
- pk.printStackTrace();
- Msg.info("Unexpected behavior. Stopping now");
- System.exit(1);
- }
- }
+ catch(ProcessKilledError pk) {
+
+ }
+ exit();
}
/**
*/
public abstract void main(String[]args) throws MsgException;
-
- /** @brief Gives the control from the given user thread back to the maestro
- *
- * schedule() and unschedule() are the basis of interactions between the user threads
- * (executing the user code), and the maestro thread (executing the platform models to decide
- * which user thread should get executed when. Once it decided which user thread should be run
- * (because the blocking action it were blocked onto are terminated in the simulated world), the
- * maestro passes the control to this uthread by calling uthread.schedule() in the maestro thread
- * (check its code for the simple semaphore-based synchronization schema).
- *
- * The uthread executes (while the maestro is blocked), until it starts another blocking
- * action, such as a communication or so. In that case, uthread.unschedule() gets called from
- * the user thread.
- *
- * As other complications, these methods are called directly by the C through a JNI upcall in
- * response to the JNI downcalls done by the Java code. For example, you have this (simplified)
- * execution path:
- * - a process calls the Task.send() method in java
- * - this calls Java_org_simgrid_msg_MsgNative_taskSend() in C through JNI
- * - this ends up calling jprocess_unschedule(), still in C
- * - this calls the java method "org/simgrid/msg/Process/unschedule()V" through JNI
- * - that is to say, the unschedule() method that you are reading the documentation of.
- *
- * To understand all this, you must keep in mind that there is no difference between the C thread
- * describing a process, and the Java thread doing the same. Most of the time, they are system
- * threads from the kernel anyway. In the other case (such as when using green java threads when
- * the OS does not provide any thread feature), I'm unsure of what happens: it's a very long time
- * that I didn't see any such OS.
- *
- * The synchronization itself is implemented using simple semaphores in Java, as you can see by
- * checking the code of these functions (and run() above). That's super simple, and thus welcome
- * given the global complexity of the synchronization architecture: getting C and Java cooperate
- * with regard to thread handling in a portable manner is very uneasy. A simple and straightforward
- * implementation of each synchronization point is precious.
- *
- * But this kinda limits the system scalability. It may reveal difficult to simulate dozens of
- * thousands of processes this way, both for memory limitations and for hard limits pushed by the
- * system on the amount of threads and semaphores (we have 2 semaphores per user process).
- *
- * At time of writing, the best source of information on how to simulate large systems within the
- * Java bindings of simgrid is here: http://tomp2p.net/dev/simgrid/
- *
- */
- public void unschedule() {
- /* this function is called from the user thread only */
- try {
-
- /* unlock the maestro before going to sleep */
- schedEnd.release();
- /* Here, the user thread is locked, waiting for the semaphore, and maestro executes instead */
- schedBegin.acquire();
- /* now that the semaphore is acquired, it means that maestro gave us the control back */
-
- /* the user thread is starting again after giving the control to maestro.
- * Let's check if we were asked to die in between */
- if ( (Thread.currentThread() instanceof Process) &&((Process) Thread.currentThread()).getNativeStop()) {
- throw new ProcessKilled();
- }
-
- } catch (InterruptedException e) {
- /* ignore this exception because this is how we get killed on process.kill or end of simulation.
- * I don't like hiding exceptions this way, but fail to see any other solution
- */
- }
-
- }
-
- /** @brief Gives the control from the maestro back to the given user thread
- *
- * Must be called from the maestro thread -- see unschedule() for details.
- *
- */
- public void schedule() {
- try {
- /* unlock the user thread before going to sleep */
- schedBegin.release();
- /* Here, maestro is locked, waiting for the schedEnd semaphore to get signaled by used thread, that executes instead */
- schedEnd.acquire();
- /* Maestro now has the control back and the user thread went to sleep gently */
-
- } catch(InterruptedException e) {
- throw new RuntimeException("The impossible did happend once again: I got interrupted in schedEnd.acquire()",e);
- }
- }
-
+ public native void exit();
/**
* Class initializer, to initialize various JNI stuff
*/