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package jdk.jshell.execution;
import java.io.IOException;
import java.io.InputStream;
import java.io.ObjectInput;
import java.io.ObjectOutput;
import java.io.OutputStream;
import java.net.InetAddress;
import java.net.ServerSocket;
import java.net.Socket;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.function.Consumer;
import com.sun.jdi.BooleanValue;
import com.sun.jdi.ClassNotLoadedException;
import com.sun.jdi.Field;
import com.sun.jdi.IncompatibleThreadStateException;
import com.sun.jdi.InvalidTypeException;
import com.sun.jdi.ObjectReference;
import com.sun.jdi.StackFrame;
import com.sun.jdi.ThreadReference;
import com.sun.jdi.VMDisconnectedException;
import com.sun.jdi.VirtualMachine;
import jdk.jshell.spi.ExecutionControl;
import jdk.jshell.spi.ExecutionEnv;
import static jdk.jshell.execution.Util.remoteInputOutput;
The implementation of ExecutionControl
that the JShell-core uses by default. Launches a remote process -- the "remote agent". Interfaces to the remote agent over a socket and via JDI. Designed to work with RemoteExecutionControl
. Author: Robert Field, Jan Lahoda Since: 9
/**
* The implementation of {@link jdk.jshell.spi.ExecutionControl} that the
* JShell-core uses by default.
* Launches a remote process -- the "remote agent".
* Interfaces to the remote agent over a socket and via JDI.
* Designed to work with {@link RemoteExecutionControl}.
*
* @author Robert Field
* @author Jan Lahoda
* @since 9
*/
public class JdiDefaultExecutionControl extends JdiExecutionControl {
private VirtualMachine vm;
private Process process;
private final String remoteAgent;
private final Object STOP_LOCK = new Object();
private boolean userCodeRunning = false;
Creates an ExecutionControl instance based on a JDI ListeningConnector
or LaunchingConnector
. Initialize JDI and use it to launch the remote JVM. Set-up a socket for commands and results. This socket also transports the user input/output/error. Params: - env – the context passed by
ExecutionControl.start(ExecutionEnv)
- remoteAgent – the remote agent to launch
- isLaunch – does JDI do the launch? That is, LaunchingConnector,
otherwise we start explicitly and use ListeningConnector
- host – explicit hostname to use, if null use discovered
hostname, applies to listening only (!isLaunch)
Throws: - IOException – if there are errors in set-up
Returns: the channel
/**
* Creates an ExecutionControl instance based on a JDI
* {@code ListeningConnector} or {@code LaunchingConnector}.
*
* Initialize JDI and use it to launch the remote JVM. Set-up a socket for
* commands and results. This socket also transports the user
* input/output/error.
*
* @param env the context passed by
* {@link jdk.jshell.spi.ExecutionControl#start(jdk.jshell.spi.ExecutionEnv) }
* @param remoteAgent the remote agent to launch
* @param isLaunch does JDI do the launch? That is, LaunchingConnector,
* otherwise we start explicitly and use ListeningConnector
* @param host explicit hostname to use, if null use discovered
* hostname, applies to listening only (!isLaunch)
* @return the channel
* @throws IOException if there are errors in set-up
*/
static ExecutionControl create(ExecutionEnv env, String remoteAgent,
boolean isLaunch, String host, int timeout) throws IOException {
try (final ServerSocket listener = new ServerSocket(0, 1, InetAddress.getLoopbackAddress())) {
// timeout on I/O-socket
listener.setSoTimeout(timeout);
int port = listener.getLocalPort();
// Set-up the JDI connection
JdiInitiator jdii = new JdiInitiator(port,
env.extraRemoteVMOptions(), remoteAgent, isLaunch, host,
timeout, Collections.emptyMap());
VirtualMachine vm = jdii.vm();
Process process = jdii.process();
List<Consumer<String>> deathListeners = new ArrayList<>();
Util.detectJdiExitEvent(vm, s -> {
for (Consumer<String> h : deathListeners) {
h.accept(s);
}
});
// Set-up the commands/reslts on the socket. Piggy-back snippet
// output.
Socket socket = listener.accept();
// out before in -- match remote creation so we don't hang
OutputStream out = socket.getOutputStream();
Map<String, OutputStream> outputs = new HashMap<>();
outputs.put("out", env.userOut());
outputs.put("err", env.userErr());
Map<String, InputStream> input = new HashMap<>();
input.put("in", env.userIn());
return remoteInputOutput(socket.getInputStream(), out, outputs, input,
(objIn, objOut) -> new JdiDefaultExecutionControl(env,
objOut, objIn, vm, process, remoteAgent, deathListeners));
}
}
Create an instance.
Params: - cmdout – the output for commands
- cmdin – the input for responses
/**
* Create an instance.
*
* @param cmdout the output for commands
* @param cmdin the input for responses
*/
private JdiDefaultExecutionControl(ExecutionEnv env,
ObjectOutput cmdout, ObjectInput cmdin,
VirtualMachine vm, Process process, String remoteAgent,
List<Consumer<String>> deathListeners) {
super(cmdout, cmdin);
this.vm = vm;
this.process = process;
this.remoteAgent = remoteAgent;
// We have now succeeded in establishing the connection.
// If there is an exit now it propagates all the way up
// and the VM should be disposed of.
deathListeners.add(s -> env.closeDown());
deathListeners.add(s -> disposeVM());
}
@Override
public String invoke(String classname, String methodname)
throws RunException,
EngineTerminationException, InternalException {
String res;
synchronized (STOP_LOCK) {
userCodeRunning = true;
}
try {
res = super.invoke(classname, methodname);
} finally {
synchronized (STOP_LOCK) {
userCodeRunning = false;
}
}
return res;
}
Interrupts a running remote invoke by manipulating remote variables
and sending a stop via JDI.
Throws: - EngineTerminationException – the execution engine has terminated
- InternalException – an internal problem occurred
/**
* Interrupts a running remote invoke by manipulating remote variables
* and sending a stop via JDI.
*
* @throws EngineTerminationException the execution engine has terminated
* @throws InternalException an internal problem occurred
*/
@Override
public void stop() throws EngineTerminationException, InternalException {
synchronized (STOP_LOCK) {
if (!userCodeRunning) {
return;
}
vm().suspend();
try {
OUTER:
for (ThreadReference thread : vm().allThreads()) {
// could also tag the thread (e.g. using name), to find it easier
for (StackFrame frame : thread.frames()) {
if (remoteAgent.equals(frame.location().declaringType().name()) &&
( "invoke".equals(frame.location().method().name())
|| "varValue".equals(frame.location().method().name()))) {
ObjectReference thiz = frame.thisObject();
Field inClientCode = thiz.referenceType().fieldByName("inClientCode");
Field expectingStop = thiz.referenceType().fieldByName("expectingStop");
Field stopException = thiz.referenceType().fieldByName("stopException");
if (((BooleanValue) thiz.getValue(inClientCode)).value()) {
thiz.setValue(expectingStop, vm().mirrorOf(true));
ObjectReference stopInstance = (ObjectReference) thiz.getValue(stopException);
vm().resume();
debug("Attempting to stop the client code...\n");
thread.stop(stopInstance);
thiz.setValue(expectingStop, vm().mirrorOf(false));
}
break OUTER;
}
}
}
} catch (ClassNotLoadedException | IncompatibleThreadStateException | InvalidTypeException ex) {
throw new InternalException("Exception on remote stop: " + ex);
} finally {
vm().resume();
}
}
}
@Override
public void close() {
super.close();
disposeVM();
}
private synchronized void disposeVM() {
try {
if (vm != null) {
vm.dispose(); // This could NPE, so it is caught below
vm = null;
}
} catch (VMDisconnectedException ex) {
// Ignore if already closed
} catch (Throwable ex) {
debug(ex, "disposeVM");
} finally {
if (process != null) {
process.destroy();
process = null;
}
}
}
@Override
protected synchronized VirtualMachine vm() throws EngineTerminationException {
if (vm == null) {
throw new EngineTerminationException("VM closed");
} else {
return vm;
}
}
Log debugging information. Arguments as for printf
. Params: - format – a format string as described in Format string syntax
- args – arguments referenced by the format specifiers in the format
string.
/**
* Log debugging information. Arguments as for {@code printf}.
*
* @param format a format string as described in Format string syntax
* @param args arguments referenced by the format specifiers in the format
* string.
*/
private static void debug(String format, Object... args) {
// Reserved for future logging
}
Log a serious unexpected internal exception.
Params: - ex – the exception
- where – a description of the context of the exception
/**
* Log a serious unexpected internal exception.
*
* @param ex the exception
* @param where a description of the context of the exception
*/
private static void debug(Throwable ex, String where) {
// Reserved for future logging
}
}