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*
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
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* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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package nsk.jdwp.ThreadReference.Interrupt;
import nsk.share.*;
import nsk.share.jpda.*;
import nsk.share.jdwp.*;
import java.io.*;
/**
* This class represents debuggee part in the test.
*/
public class interrupt001a {
// name for the tested thread
public static final String THREAD_NAME = "TestedThreadName";
public static final String FIELD_NAME = "thread";
public static volatile boolean interrupted = false;
// notification object to notify debuggee that thread is started
private static Object threadStarting = new Object();
// object which thread will wait for before being interruted
private static Object threadWaiting = new Object();
// scaffold objects
private static volatile ArgumentHandler argumentHandler = null;
private static volatile Log log = null;
public static void main(String args[]) {
interrupt001a _interrupt001a = new interrupt001a();
System.exit(interrupt001.JCK_STATUS_BASE + _interrupt001a.runIt(args, System.err));
}
public int runIt(String args[], PrintStream out) {
//make log for debugee messages
argumentHandler = new ArgumentHandler(args);
log = new Log(out, argumentHandler);
long timeout = argumentHandler.getWaitTime() * 60 * 1000; // milliseconds
// make communication pipe to debugger
log.display("Creating pipe");
IOPipe pipe = argumentHandler.createDebugeeIOPipe(log);
// load tested class and create tested thread
log.display("Creating object of tested class");
TestedClass.thread = new TestedClass(THREAD_NAME);
// start the thread and wait for notification from it
synchronized (threadStarting) {
TestedClass.thread.start();
try {
threadStarting.wait();
} catch (InterruptedException e) {
log.complain("Interruption while waiting for thread started:\n\t" + e);
pipe.println(interrupt001.ERROR);
log.display("Debugee FAILED");
return interrupt001.FAILED;
}
// send debugger signal READY
log.display("Sending signal to debugger: " + interrupt001.READY);
pipe.println(interrupt001.READY);
}
// wait for signal RUN from debugeer
log.display("Waiting for signal from debugger: " + interrupt001.RUN);
String signal = pipe.readln();
log.display("Received signal from debugger: " + signal);
// check received signal
if (signal == null || !signal.equals(interrupt001.RUN)) {
log.complain("Unexpected communication signal from debugee: " + signal
+ " (expected: " + interrupt001.RUN + ")");
log.display("Debugee FAILED");
return interrupt001.FAILED;
}
// wait for thread finished in a waittime interval
if (TestedClass.thread.isAlive()) {
log.display("Waiting for tested thread finished for timeout: " + timeout);
try {
TestedClass.thread.join(timeout);
} catch (InterruptedException e) {
log.complain("Interruption while waiting for tested thread finished:\n\t" + e);
pipe.println(interrupt001.ERROR);
log.display("Debugee FAILED");
return interrupt001.FAILED;
}
}
// test if thread was interrupted by debugger
if (interrupt001a.interrupted) {
log.display("Sending signal to debugger: " + interrupt001.INTERRUPTED_TRUE);
pipe.println(interrupt001.INTERRUPTED_TRUE);
} else {
log.display("Sending signal to debugger: " + interrupt001.INTERRUPTED_FALSE);
pipe.println(interrupt001.INTERRUPTED_FALSE);
}
// wait for signal QUIT from debugeer
log.display("Waiting for signal from debugger: " + interrupt001.QUIT);
signal = pipe.readln();
log.display("Received signal from debugger: " + signal);
// check received signal
if (signal == null || !signal.equals(interrupt001.QUIT)) {
log.complain("Unexpected communication signal from debugee: " + signal
+ " (expected: " + interrupt001.QUIT + ")");
log.display("Debugee FAILED");
return interrupt001.FAILED;
}
// exit debugee
log.display("Debugee PASSED");
return interrupt001.PASSED;
}
// tested thread class
public static class TestedClass extends Thread {
// field with the tested Thread value
public static volatile TestedClass thread = null;
TestedClass(String name) {
super(name);
}
// start the thread and recursive invoke makeFrames()
public void run() {
log.display("Tested thread started");
synchronized (threadWaiting) {
// notify debuggee that thread started
synchronized (threadStarting) {
threadStarting.notifyAll();
}
// wait infinitely for notification object
try {
threadWaiting.wait();
log.complain("Tested thread NOT interrupted");
} catch (InterruptedException e) {
log.display("Tested thread interrupted");
interrupt001a.interrupted = true;
}
}
log.display("Tested thread finished");
}
}
}