Google Git
Sign in
android / toolchain / jdk / jdk9_jdk / 2283b9d1d8f03fea8fa192c248b58726a66a6eaf / . / src / share / classes / sun / rmi / server / Activation.java
blob: 119910ed5ccb0760a8629e2547f32d5d1aab6e17 [file] [log] [blame]
/*
* Copyright (c) 1997, 2006, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* 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).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package sun.rmi.server;
import java.io.ByteArrayOutputStream;
import java.io.File;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.io.PrintStream;
import java.io.PrintWriter;
import java.io.Serializable;
import java.lang.Process;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.net.InetAddress;
import java.net.ServerSocket;
import java.net.Socket;
import java.net.SocketAddress;
import java.net.SocketException;
import java.nio.channels.Channel;
import java.nio.channels.ServerSocketChannel;
import java.rmi.AccessException;
import java.rmi.AlreadyBoundException;
import java.rmi.ConnectException;
import java.rmi.ConnectIOException;
import java.rmi.MarshalledObject;
import java.rmi.NoSuchObjectException;
import java.rmi.NotBoundException;
import java.rmi.Remote;
import java.rmi.RemoteException;
import java.rmi.activation.ActivationDesc;
import java.rmi.activation.ActivationException;
import java.rmi.activation.ActivationGroupDesc;
import java.rmi.activation.ActivationGroup;
import java.rmi.activation.ActivationGroupID;
import java.rmi.activation.ActivationID;
import java.rmi.activation.ActivationInstantiator;
import java.rmi.activation.ActivationMonitor;
import java.rmi.activation.ActivationSystem;
import java.rmi.activation.Activator;
import java.rmi.activation.UnknownGroupException;
import java.rmi.activation.UnknownObjectException;
import java.rmi.registry.Registry;
import java.rmi.server.ObjID;
import java.rmi.server.RMIClassLoader;
import java.rmi.server.RMIClientSocketFactory;
import java.rmi.server.RMIServerSocketFactory;
import java.rmi.server.RemoteObject;
import java.rmi.server.RemoteServer;
import java.rmi.server.UnicastRemoteObject;
import java.security.AccessControlException;
import java.security.AccessController;
import java.security.AllPermission;
import java.security.CodeSource;
import java.security.Permission;
import java.security.PermissionCollection;
import java.security.Permissions;
import java.security.Policy;
import java.security.PrivilegedAction;
import java.security.PrivilegedExceptionAction;
import java.security.cert.Certificate;
import java.text.MessageFormat;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Date;
import java.util.Enumeration;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.MissingResourceException;
import java.util.Properties;
import java.util.ResourceBundle;
import java.util.Set;
import sun.rmi.log.LogHandler;
import sun.rmi.log.ReliableLog;
import sun.rmi.registry.RegistryImpl;
import sun.rmi.runtime.NewThreadAction;
import sun.rmi.server.UnicastServerRef;
import sun.rmi.transport.LiveRef;
import sun.security.action.GetBooleanAction;
import sun.security.action.GetIntegerAction;
import sun.security.action.GetPropertyAction;
import sun.security.provider.PolicyFile;
import com.sun.rmi.rmid.ExecPermission;
import com.sun.rmi.rmid.ExecOptionPermission;
/**
* The Activator facilitates remote object activation. A "faulting"
* remote reference calls the activator's <code>activate</code> method
* to obtain a "live" reference to a activatable remote object. Upon
* receiving a request for activation, the activator looks up the
* activation descriptor for the activation identifier, id, determines
* the group in which the object should be activated and invokes the
* activate method on the object's activation group (described by the
* remote interface <code>ActivationInstantiator</code>). The
* activator initiates the execution of activation groups as
* necessary. For example, if an activation group for a specific group
* identifier is not already executing, the activator will spawn a
* child process for the activation group. <p>
*
* The activator is responsible for monitoring and detecting when
* activation groups fail so that it can remove stale remote references
* from its internal tables. <p>
*
* @author Ann Wollrath
* @since 1.2
*/
public class Activation implements Serializable {
/** indicate compatibility with JDK 1.2 version of class */
private static final long serialVersionUID = 2921265612698155191L;
private static final byte MAJOR_VERSION = 1;
private static final byte MINOR_VERSION = 0;
/** exec policy object */
private static Object execPolicy;
private static Method execPolicyMethod;
private static boolean debugExec;
/** maps activation id to its respective group id */
private Map<ActivationID,ActivationGroupID> idTable =
new HashMap<ActivationID,ActivationGroupID>();
/** maps group id to its GroupEntry groups */
private Map<ActivationGroupID,GroupEntry> groupTable =
new HashMap<ActivationGroupID,GroupEntry>();
private byte majorVersion = MAJOR_VERSION;
private byte minorVersion = MINOR_VERSION;
/** number of simultaneous group exec's */
private transient int groupSemaphore;
/** counter for numbering groups */
private transient int groupCounter;
/** reliable log to hold descriptor table */
private transient ReliableLog log;
/** number of updates since last snapshot */
private transient int numUpdates;
/** the java command */
// accessed by GroupEntry
private transient String[] command;
/** timeout on wait for child process to be created or destroyed */
private static final long groupTimeout =
getInt("sun.rmi.activation.groupTimeout", 60000);
/** take snapshot after this many updates */
private static final int snapshotInterval =
getInt("sun.rmi.activation.snapshotInterval", 200);
/** timeout on wait for child process to be created */
private static final long execTimeout =
getInt("sun.rmi.activation.execTimeout", 30000);
private static final Object initLock = new Object();
private static boolean initDone = false;
// this should be a *private* method since it is privileged
private static int getInt(String name, int def) {
return AccessController.doPrivileged(new GetIntegerAction(name, def));
}
private transient Activator activator;
private transient Activator activatorStub;
private transient ActivationSystem system;
private transient ActivationSystem systemStub;
private transient ActivationMonitor monitor;
private transient Registry registry;
private transient volatile boolean shuttingDown = false;
private transient volatile Object startupLock;
private transient Thread shutdownHook;
private static ResourceBundle resources = null;
/**
* Create an uninitialized instance of Activation that can be
* populated with log data. This is only called when the initial
* snapshot is taken during the first incarnation of rmid.
*/
private Activation() {}
/**
* Recover activation state from the reliable log and initialize
* activation services.
*/
private static void startActivation(int port,
RMIServerSocketFactory ssf,
String logName,
String[] childArgs)
throws Exception
{
ReliableLog log = new ReliableLog(logName, new ActLogHandler());
Activation state = (Activation) log.recover();
state.init(port, ssf, log, childArgs);
}
/**
* Initialize the Activation instantiation; start activation
* services.
*/
private void init(int port,
RMIServerSocketFactory ssf,
ReliableLog log,
String[] childArgs)
throws Exception
{
// initialize
this.log = log;
numUpdates = 0;
shutdownHook = new ShutdownHook();
groupSemaphore = getInt("sun.rmi.activation.groupThrottle", 3);
groupCounter = 0;
Runtime.getRuntime().addShutdownHook(shutdownHook);
ActivationGroupID[] gids =
groupTable.keySet().toArray(
new ActivationGroupID[groupTable.size()]);
synchronized (startupLock = new Object()) {
// all the remote methods briefly synchronize on startupLock
// (via checkShutdown) to make sure they don't happen in the
// middle of this block. This block must not cause any such
// incoming remote calls to happen, or deadlock would result!
activator = new ActivatorImpl(port, ssf);
activatorStub = (Activator) RemoteObject.toStub(activator);
system = new ActivationSystemImpl(port, ssf);
systemStub = (ActivationSystem) RemoteObject.toStub(system);
monitor = new ActivationMonitorImpl(port, ssf);
initCommand(childArgs);
registry = new SystemRegistryImpl(port, null, ssf, systemStub);
if (ssf != null) {
synchronized (initLock) {
initDone = true;
initLock.notifyAll();
}
}
}
startupLock = null;
// restart services
for (int i = gids.length; --i >= 0; ) {
try {
getGroupEntry(gids[i]).restartServices();
} catch (UnknownGroupException e) {
System.err.println(
getTextResource("rmid.restart.group.warning"));
e.printStackTrace();
}
}
}
private static class SystemRegistryImpl extends RegistryImpl {
private static final String NAME = ActivationSystem.class.getName();
private final ActivationSystem systemStub;
SystemRegistryImpl(int port,
RMIClientSocketFactory csf,
RMIServerSocketFactory ssf,
ActivationSystem systemStub)
throws RemoteException
{
super(port, csf, ssf);
this.systemStub = systemStub;
}
/**
* Returns the activation system stub if the specified name
* matches the activation system's class name, otherwise
* returns the result of invoking super.lookup with the specified
* name.
*/
public Remote lookup(String name)
throws RemoteException, NotBoundException
{
if (name.equals(NAME)) {
return systemStub;
} else {
return super.lookup(name);
}
}
public String[] list() throws RemoteException {
String[] list1 = super.list();
int length = list1.length;
String[] list2 = new String[length + 1];
if (length > 0) {
System.arraycopy(list1, 0, list2, 0, length);
}
list2[length] = NAME;
return list2;
}
public void bind(String name, Remote obj)
throws RemoteException, AlreadyBoundException, AccessException
{
if (name.equals(NAME)) {
throw new AccessException(
"binding ActivationSystem is disallowed");
} else {
super.bind(name, obj);
}
}
public void unbind(String name)
throws RemoteException, NotBoundException, AccessException
{
if (name.equals(NAME)) {
throw new AccessException(
"unbinding ActivationSystem is disallowed");
} else {
super.unbind(name);
}
}
public void rebind(String name, Remote obj)
throws RemoteException, AccessException
{
if (name.equals(NAME)) {
throw new AccessException(
"binding ActivationSystem is disallowed");
} else {
super.rebind(name, obj);
}
}
}
class ActivatorImpl extends RemoteServer implements Activator {
// Because ActivatorImpl has a fixed ObjID, it can be
// called by clients holding stale remote references. Each of
// its remote methods, then, must check startupLock (calling
// checkShutdown() is easiest).
private static final long serialVersionUID = -3654244726254566136L;
/**
* Construct a new Activator on a specified port.
*/
ActivatorImpl(int port, RMIServerSocketFactory ssf)
throws RemoteException
{
/* Server ref must be created and assigned before remote object
* 'this' can be exported.
*/
LiveRef lref =
new LiveRef(new ObjID(ObjID.ACTIVATOR_ID), port, null, ssf);
UnicastServerRef uref = new UnicastServerRef(lref);
ref = uref;
uref.exportObject(this, null, false);
}
public MarshalledObject<? extends Remote> activate(ActivationID id,
boolean force)
throws ActivationException, UnknownObjectException, RemoteException
{
checkShutdown();
return getGroupEntry(id).activate(id, force);
}
}
class ActivationMonitorImpl extends UnicastRemoteObject
implements ActivationMonitor
{
private static final long serialVersionUID = -6214940464757948867L;
ActivationMonitorImpl(int port, RMIServerSocketFactory ssf)
throws RemoteException
{
super(port, null, ssf);
}
public void inactiveObject(ActivationID id)
throws UnknownObjectException, RemoteException
{
try {
checkShutdown();
} catch (ActivationException e) {
return;
}
RegistryImpl.checkAccess("Activator.inactiveObject");
getGroupEntry(id).inactiveObject(id);
}
public void activeObject(ActivationID id,
MarshalledObject<? extends Remote> mobj)
throws UnknownObjectException, RemoteException
{
try {
checkShutdown();
} catch (ActivationException e) {
return;
}
RegistryImpl.checkAccess("ActivationSystem.activeObject");
getGroupEntry(id).activeObject(id, mobj);
}
public void inactiveGroup(ActivationGroupID id,
long incarnation)
throws UnknownGroupException, RemoteException
{
try {
checkShutdown();
} catch (ActivationException e) {
return;
}
RegistryImpl.checkAccess("ActivationMonitor.inactiveGroup");
getGroupEntry(id).inactiveGroup(incarnation, false);
}
}
class ActivationSystemImpl
extends RemoteServer
implements ActivationSystem
{
private static final long serialVersionUID = 9100152600327688967L;
// Because ActivationSystemImpl has a fixed ObjID, it can be
// called by clients holding stale remote references. Each of
// its remote methods, then, must check startupLock (calling
// checkShutdown() is easiest).
ActivationSystemImpl(int port, RMIServerSocketFactory ssf)
throws RemoteException
{
/* Server ref must be created and assigned before remote object
* 'this' can be exported.
*/
LiveRef lref = new LiveRef(new ObjID(4), port, null, ssf);
UnicastServerRef uref = new UnicastServerRef(lref);
ref = uref;
uref.exportObject(this, null);
}
public ActivationID registerObject(ActivationDesc desc)
throws ActivationException, UnknownGroupException, RemoteException
{
checkShutdown();
RegistryImpl.checkAccess("ActivationSystem.registerObject");
ActivationGroupID groupID = desc.getGroupID();
ActivationID id = new ActivationID(activatorStub);
getGroupEntry(groupID).registerObject(id, desc, true);
return id;
}
public void unregisterObject(ActivationID id)
throws ActivationException, UnknownObjectException, RemoteException
{
checkShutdown();
RegistryImpl.checkAccess("ActivationSystem.unregisterObject");
getGroupEntry(id).unregisterObject(id, true);
}
public ActivationGroupID registerGroup(ActivationGroupDesc desc)
throws ActivationException, RemoteException
{
checkShutdown();
RegistryImpl.checkAccess("ActivationSystem.registerGroup");
checkArgs(desc, null);
ActivationGroupID id = new ActivationGroupID(systemStub);
GroupEntry entry = new GroupEntry(id, desc);
// table insertion must take place before log update
synchronized (groupTable) {
groupTable.put(id, entry);
}
addLogRecord(new LogRegisterGroup(id, desc));
return id;
}
public ActivationMonitor activeGroup(ActivationGroupID id,
ActivationInstantiator group,
long incarnation)
throws ActivationException, UnknownGroupException, RemoteException
{
checkShutdown();
RegistryImpl.checkAccess("ActivationSystem.activeGroup");
getGroupEntry(id).activeGroup(group, incarnation);
return monitor;
}
public void unregisterGroup(ActivationGroupID id)
throws ActivationException, UnknownGroupException, RemoteException
{
checkShutdown();
RegistryImpl.checkAccess("ActivationSystem.unregisterGroup");
// remove entry before unregister so state is updated before
// logged
synchronized (groupTable) {
GroupEntry entry = getGroupEntry(id);
groupTable.remove(id);
entry.unregisterGroup(true);
}
}
public ActivationDesc setActivationDesc(ActivationID id,
ActivationDesc desc)
throws ActivationException, UnknownObjectException, RemoteException
{
checkShutdown();
RegistryImpl.checkAccess("ActivationSystem.setActivationDesc");
if (!getGroupID(id).equals(desc.getGroupID())) {
throw new ActivationException(
"ActivationDesc contains wrong group");
}
return getGroupEntry(id).setActivationDesc(id, desc, true);
}
public ActivationGroupDesc setActivationGroupDesc(ActivationGroupID id,
ActivationGroupDesc desc)
throws ActivationException, UnknownGroupException, RemoteException
{
checkShutdown();
RegistryImpl.checkAccess(
"ActivationSystem.setActivationGroupDesc");
checkArgs(desc, null);
return getGroupEntry(id).setActivationGroupDesc(id, desc, true);
}
public ActivationDesc getActivationDesc(ActivationID id)
throws ActivationException, UnknownObjectException, RemoteException
{
checkShutdown();
RegistryImpl.checkAccess("ActivationSystem.getActivationDesc");
return getGroupEntry(id).getActivationDesc(id);
}
public ActivationGroupDesc getActivationGroupDesc(ActivationGroupID id)
throws ActivationException, UnknownGroupException, RemoteException
{
checkShutdown();
RegistryImpl.checkAccess
("ActivationSystem.getActivationGroupDesc");
return getGroupEntry(id).desc;
}
/**
* Shutdown the activation system. Destroys all groups spawned by
* the activation daemon and exits the activation daemon.
*/
public void shutdown() throws AccessException {
RegistryImpl.checkAccess("ActivationSystem.shutdown");
Object lock = startupLock;
if (lock != null) {
synchronized (lock) {
// nothing
}
}
synchronized (Activation.this) {
if (!shuttingDown) {
shuttingDown = true;
(new Shutdown()).start();
}
}
}
}
private void checkShutdown() throws ActivationException {
// if the startup critical section is running, wait until it
// completes/fails before continuing with the remote call.
Object lock = startupLock;
if (lock != null) {
synchronized (lock) {
// nothing
}
}
if (shuttingDown == true) {
throw new ActivationException(
"activation system shutting down");
}
}
private static void unexport(Remote obj) {
for (;;) {
try {
if (UnicastRemoteObject.unexportObject(obj, false) == true) {
break;
} else {
Thread.sleep(100);
}
} catch (Exception e) {
continue;
}
}
}
/**
* Thread to shutdown rmid.
*/
private class Shutdown extends Thread {
Shutdown() {
super("rmid Shutdown");
}
public void run() {
try {
/*
* Unexport activation system services
*/
unexport(activator);
unexport(system);
// destroy all child processes (groups)
GroupEntry[] groupEntries;
synchronized (groupTable) {
groupEntries = groupTable.values().
toArray(new GroupEntry[groupTable.size()]);
}
for (GroupEntry groupEntry : groupEntries) {
groupEntry.shutdown();
}
Runtime.getRuntime().removeShutdownHook(shutdownHook);
/*
* Unexport monitor safely since all processes are destroyed.
*/
unexport(monitor);
/*
* Close log file, fix for 4243264: rmid shutdown thread
* interferes with remote calls in progress. Make sure
* the log file is only closed when it is impossible for
* its closure to interfere with any pending remote calls.
* We close the log when all objects in the rmid VM are
* unexported.
*/
try {
synchronized (log) {
log.close();
}
} catch (IOException e) {
}
} finally {
/*
* Now exit... A System.exit should only be done if
* the RMI activation system daemon was started up
* by the main method below (in which should always
* be the case since the Activation contructor is private).
*/
System.err.println(getTextResource("rmid.daemon.shutdown"));
System.exit(0);
}
}
}
/** Thread to destroy children in the event of abnormal termination. */
private class ShutdownHook extends Thread {
ShutdownHook() {
super("rmid ShutdownHook");
}
public void run() {
synchronized (Activation.this) {
shuttingDown = true;
}
// destroy all child processes (groups) quickly
synchronized (groupTable) {
for (GroupEntry groupEntry : groupTable.values()) {
groupEntry.shutdownFast();
}
}
}
}
/**
* Returns the groupID for a given id of an object in the group.
* Throws UnknownObjectException if the object is not registered.
*/
private ActivationGroupID getGroupID(ActivationID id)
throws UnknownObjectException
{
synchronized (idTable) {
ActivationGroupID groupID = idTable.get(id);
if (groupID != null) {
return groupID;
}
}
throw new UnknownObjectException("unknown object: " + id);
}
/**
* Returns the group entry for the group id. Throws
* UnknownGroupException if the group is not registered.
*/
private GroupEntry getGroupEntry(ActivationGroupID id)
throws UnknownGroupException
{
if (id.getClass() == ActivationGroupID.class) {
synchronized (groupTable) {
GroupEntry entry = groupTable.get(id);
if (entry != null && !entry.removed) {
return entry;
}
}
}
throw new UnknownGroupException("group unknown");
}
/**
* Returns the group entry for the object's id. Throws
* UnknownObjectException if the object is not registered or the
* object's group is not registered.
*/
private GroupEntry getGroupEntry(ActivationID id)
throws UnknownObjectException
{
ActivationGroupID gid = getGroupID(id);
synchronized (groupTable) {
GroupEntry entry = groupTable.get(gid);
if (entry != null) {
return entry;
}
}
throw new UnknownObjectException("object's group removed");
}
/**
* Container for group information: group's descriptor, group's
* instantiator, flag to indicate pending group creation, and
* table of the group's actived objects.
*
* WARNING: GroupEntry objects should not be written into log file
* updates. GroupEntrys are inner classes of Activation and they
* can not be serialized independent of this class. If the
* complete Activation system is written out as a log update, the
* point of having updates is nullified.
*/
private class GroupEntry implements Serializable {
/** indicate compatibility with JDK 1.2 version of class */
private static final long serialVersionUID = 7222464070032993304L;
private static final int MAX_TRIES = 2;
private static final int NORMAL = 0;
private static final int CREATING = 1;
private static final int TERMINATE = 2;
private static final int TERMINATING = 3;
ActivationGroupDesc desc = null;
ActivationGroupID groupID = null;
long incarnation = 0;
Map<ActivationID,ObjectEntry> objects =
new HashMap<ActivationID,ObjectEntry>();
Set<ActivationID> restartSet = new HashSet<ActivationID>();
transient ActivationInstantiator group = null;
transient int status = NORMAL;
transient long waitTime = 0;
transient String groupName = null;
transient Process child = null;
transient boolean removed = false;
transient Watchdog watchdog = null;
GroupEntry(ActivationGroupID groupID, ActivationGroupDesc desc) {
this.groupID = groupID;
this.desc = desc;
}
void restartServices() {
Iterator<ActivationID> iter = null;
synchronized (this) {
if (restartSet.isEmpty()) {
return;
}
/*
* Clone the restartSet so the set does not have to be locked
* during iteration. Locking the restartSet could cause
* deadlock if an object we are restarting caused another
* object in this group to be activated.
*/
iter = (new HashSet<ActivationID>(restartSet)).iterator();
}
while (iter.hasNext()) {
ActivationID id = iter.next();
try {
activate(id, true);
} catch (Exception e) {
if (shuttingDown) {
return;
}
System.err.println(
getTextResource("rmid.restart.service.warning"));
e.printStackTrace();
}
}
}
synchronized void activeGroup(ActivationInstantiator inst,
long instIncarnation)
throws ActivationException, UnknownGroupException
{
if (incarnation != instIncarnation) {
throw new ActivationException("invalid incarnation");
}
if (group != null) {
if (group.equals(inst)) {
return;
} else {
throw new ActivationException("group already active");
}
}
if (child != null && status != CREATING) {
throw new ActivationException("group not being created");
}
group = inst;
status = NORMAL;
notifyAll();
}
private void checkRemoved() throws UnknownGroupException {
if (removed) {
throw new UnknownGroupException("group removed");
}
}
private ObjectEntry getObjectEntry(ActivationID id)
throws UnknownObjectException
{
if (removed) {
throw new UnknownObjectException("object's group removed");
}
ObjectEntry objEntry = objects.get(id);
if (objEntry == null) {
throw new UnknownObjectException("object unknown");
}
return objEntry;
}
synchronized void registerObject(ActivationID id,
ActivationDesc desc,
boolean addRecord)
throws UnknownGroupException, ActivationException
{
checkRemoved();
objects.put(id, new ObjectEntry(desc));
if (desc.getRestartMode() == true) {
restartSet.add(id);
}
// table insertion must take place before log update
synchronized (idTable) {
idTable.put(id, groupID);
}
if (addRecord) {
addLogRecord(new LogRegisterObject(id, desc));
}
}
synchronized void unregisterObject(ActivationID id, boolean addRecord)
throws UnknownGroupException, ActivationException
{
ObjectEntry objEntry = getObjectEntry(id);
objEntry.removed = true;
objects.remove(id);
if (objEntry.desc.getRestartMode() == true) {
restartSet.remove(id);
}
// table insertion must take place before log update
synchronized (idTable) {
idTable.remove(id);
}
if (addRecord) {
addLogRecord(new LogUnregisterObject(id));
}
}
synchronized void unregisterGroup(boolean addRecord)
throws UnknownGroupException, ActivationException
{
checkRemoved();
removed = true;
for (Map.Entry<ActivationID,ObjectEntry> entry :
objects.entrySet())
{
ActivationID id = entry.getKey();
synchronized (idTable) {
idTable.remove(id);
}
ObjectEntry objEntry = entry.getValue();
objEntry.removed = true;
}
objects.clear();
restartSet.clear();
reset();
childGone();
// removal should be recorded before log update
if (addRecord) {
addLogRecord(new LogUnregisterGroup(groupID));
}
}
synchronized ActivationDesc setActivationDesc(ActivationID id,
ActivationDesc desc,
boolean addRecord)
throws UnknownObjectException, UnknownGroupException,
ActivationException
{
ObjectEntry objEntry = getObjectEntry(id);
ActivationDesc oldDesc = objEntry.desc;
objEntry.desc = desc;
if (desc.getRestartMode() == true) {
restartSet.add(id);
} else {
restartSet.remove(id);
}
// restart information should be recorded before log update
if (addRecord) {
addLogRecord(new LogUpdateDesc(id, desc));
}
return oldDesc;
}
synchronized ActivationDesc getActivationDesc(ActivationID id)
throws UnknownObjectException, UnknownGroupException
{
return getObjectEntry(id).desc;
}
synchronized ActivationGroupDesc setActivationGroupDesc(
ActivationGroupID id,
ActivationGroupDesc desc,
boolean addRecord)
throws UnknownGroupException, ActivationException
{
checkRemoved();
ActivationGroupDesc oldDesc = this.desc;
this.desc = desc;
// state update should occur before log update
if (addRecord) {
addLogRecord(new LogUpdateGroupDesc(id, desc));
}
return oldDesc;
}
synchronized void inactiveGroup(long incarnation, boolean failure)
throws UnknownGroupException
{
checkRemoved();
if (this.incarnation != incarnation) {
throw new UnknownGroupException("invalid incarnation");
}
reset();
if (failure) {
terminate();
} else if (child != null && status == NORMAL) {
status = TERMINATE;
watchdog.noRestart();
}
}
synchronized void activeObject(ActivationID id,
MarshalledObject<? extends Remote> mobj)
throws UnknownObjectException
{
getObjectEntry(id).stub = mobj;
}
synchronized void inactiveObject(ActivationID id)
throws UnknownObjectException
{
getObjectEntry(id).reset();
}
private synchronized void reset() {
group = null;
for (ObjectEntry objectEntry : objects.values()) {
objectEntry.reset();
}
}
private void childGone() {
if (child != null) {
child = null;
watchdog.dispose();
watchdog = null;
status = NORMAL;
notifyAll();
}
}
private void terminate() {
if (child != null && status != TERMINATING) {
child.destroy();
status = TERMINATING;
waitTime = System.currentTimeMillis() + groupTimeout;
notifyAll();
}
}
private void await() {
while (true) {
switch (status) {
case NORMAL:
return;
case TERMINATE:
terminate();
case TERMINATING:
try {
child.exitValue();
} catch (IllegalThreadStateException e) {
long now = System.currentTimeMillis();
if (waitTime > now) {
try {
wait(waitTime - now);
} catch (InterruptedException ee) {
}
continue;
}
// REMIND: print message that group did not terminate?
}
childGone();
return;
case CREATING:
try {
wait();
} catch (InterruptedException e) {
}
}
}
}
// no synchronization to avoid delay wrt getInstantiator
void shutdownFast() {
Process p = child;
if (p != null) {
p.destroy();
}
}
synchronized void shutdown() {
reset();
terminate();
await();
}
MarshalledObject<? extends Remote> activate(ActivationID id,
boolean force)
throws ActivationException
{
Exception detail = null;
/*
* Attempt to activate object and reattempt (several times)
* if activation fails due to communication problems.
*/
for (int tries = MAX_TRIES; tries > 0; tries--) {
ActivationInstantiator inst;
long currentIncarnation;
// look up object to activate
ObjectEntry objEntry;
synchronized (this) {
objEntry = getObjectEntry(id);
// if not forcing activation, return cached stub
if (!force && objEntry.stub != null) {
return objEntry.stub;
}
inst = getInstantiator(groupID);
currentIncarnation = incarnation;
}
boolean groupInactive = false;
boolean failure = false;
// activate object
try {
return objEntry.activate(id, force, inst);
} catch (NoSuchObjectException e) {
groupInactive = true;
detail = e;
} catch (ConnectException e) {
groupInactive = true;
failure = true;
detail = e;
} catch (ConnectIOException e) {
groupInactive = true;
failure = true;
detail = e;
} catch (InactiveGroupException e) {
groupInactive = true;
detail = e;
} catch (RemoteException e) {
// REMIND: wait some here before continuing?
if (detail == null) {
detail = e;
}
}
if (groupInactive) {
// group has failed or is inactive; mark inactive
try {
System.err.println(
MessageFormat.format(
getTextResource("rmid.group.inactive"),
detail.toString()));
detail.printStackTrace();
getGroupEntry(groupID).
inactiveGroup(currentIncarnation, failure);
} catch (UnknownGroupException e) {
// not a problem
}
}
}
/**
* signal that group activation failed, nested exception
* specifies what exception occurred when the group did not
* activate
*/
throw new ActivationException("object activation failed after " +
MAX_TRIES + " tries", detail);
}
/**
* Returns the instantiator for the group specified by id and
* entry. If the group is currently inactive, exec some
* bootstrap code to create the group.
*/
private ActivationInstantiator getInstantiator(ActivationGroupID id)
throws ActivationException
{
assert Thread.holdsLock(this);
await();
if (group != null) {
return group;
}
checkRemoved();
boolean acquired = false;
try {
groupName = Pstartgroup();
acquired = true;
String[] argv = activationArgs(desc);
checkArgs(desc, argv);
if (debugExec) {
StringBuffer sb = new StringBuffer(argv[0]);
int j;
for (j = 1; j < argv.length; j++) {
sb.append(' ');
sb.append(argv[j]);
}
System.err.println(
MessageFormat.format(
getTextResource("rmid.exec.command"),
sb.toString()));
}
try {
child = Runtime.getRuntime().exec(argv);
status = CREATING;
++incarnation;
watchdog = new Watchdog();
watchdog.start();
addLogRecord(new LogGroupIncarnation(id, incarnation));
// handle child I/O streams before writing to child
PipeWriter.plugTogetherPair
(child.getInputStream(), System.out,
child.getErrorStream(), System.err);
MarshalOutputStream out =
new MarshalOutputStream(child.getOutputStream());
out.writeObject(id);
out.writeObject(desc);
out.writeLong(incarnation);
out.flush();
out.close();
} catch (IOException e) {
terminate();
throw new ActivationException(
"unable to create activation group", e);
}
try {
long now = System.currentTimeMillis();
long stop = now + execTimeout;
do {
wait(stop - now);
if (group != null) {
return group;
}
now = System.currentTimeMillis();
} while (status == CREATING && now < stop);
} catch (InterruptedException e) {
}
terminate();
throw new ActivationException(
(removed ?
"activation group unregistered" :
"timeout creating child process"));
} finally {
if (acquired) {
Vstartgroup();
}
}
}
/**
* Waits for process termination and then restarts services.
*/
private class Watchdog extends Thread {
private final Process groupProcess = child;
private final long groupIncarnation = incarnation;
private boolean canInterrupt = true;
private boolean shouldQuit = false;
private boolean shouldRestart = true;
Watchdog() {
super("WatchDog-" + groupName + "-" + incarnation);
setDaemon(true);
}
public void run() {
if (shouldQuit) {
return;
}
/*
* Wait for the group to crash or exit.
*/
try {
groupProcess.waitFor();
} catch (InterruptedException exit) {
return;
}
boolean restart = false;
synchronized (GroupEntry.this) {
if (shouldQuit) {
return;
}
canInterrupt = false;
interrupted(); // clear interrupt bit
/*
* Since the group crashed, we should
* reset the entry before activating objects
*/
if (groupIncarnation == incarnation) {
restart = shouldRestart && !shuttingDown;
reset();
childGone();
}
}
/*
* Activate those objects that require restarting
* after a crash.
*/
if (restart) {
restartServices();
}
}
/**
* Marks this thread as one that is no longer needed.
* If the thread is in a state in which it can be interrupted,
* then the thread is interrupted.
*/
void dispose() {
shouldQuit = true;
if (canInterrupt) {
interrupt();
}
}
/**
* Marks this thread as no longer needing to restart objects.
*/
void noRestart() {
shouldRestart = false;
}
}
}
private String[] activationArgs(ActivationGroupDesc desc) {
ActivationGroupDesc.CommandEnvironment cmdenv;
cmdenv = desc.getCommandEnvironment();
// argv is the literal command to exec
List<String> argv = new ArrayList<String>();
// Command name/path
argv.add((cmdenv != null && cmdenv.getCommandPath() != null)
? cmdenv.getCommandPath()
: command[0]);
// Group-specific command options
if (cmdenv != null && cmdenv.getCommandOptions() != null) {
argv.addAll(Arrays.asList(cmdenv.getCommandOptions()));
}
// Properties become -D parameters
Properties props = desc.getPropertyOverrides();
if (props != null) {
for (Enumeration<?> p = props.propertyNames();
p.hasMoreElements();)
{
String name = (String) p.nextElement();
/* Note on quoting: it would be wrong
* here, since argv will be passed to
* Runtime.exec, which should not parse
* arguments or split on whitespace.
*/
argv.add("-D" + name + "=" + props.getProperty(name));
}
}
/* Finally, rmid-global command options (e.g. -C options)
* and the classname
*/
for (int i = 1; i < command.length; i++) {
argv.add(command[i]);
}
String[] realArgv = new String[argv.size()];
System.arraycopy(argv.toArray(), 0, realArgv, 0, realArgv.length);
return realArgv;
}
private void checkArgs(ActivationGroupDesc desc, String[] cmd)
throws SecurityException, ActivationException
{
/*
* Check exec command using execPolicy object
*/
if (execPolicyMethod != null) {
if (cmd == null) {
cmd = activationArgs(desc);
}
try {
execPolicyMethod.invoke(execPolicy, desc, cmd);
} catch (InvocationTargetException e) {
Throwable targetException = e.getTargetException();
if (targetException instanceof SecurityException) {
throw (SecurityException) targetException;
} else {
throw new ActivationException(
execPolicyMethod.getName() + ": unexpected exception",
e);
}
} catch (Exception e) {
throw new ActivationException(
execPolicyMethod.getName() + ": unexpected exception", e);
}
}
}
private static class ObjectEntry implements Serializable {
private static final long serialVersionUID = -5500114225321357856L;
/** descriptor for object */
ActivationDesc desc;
/** the stub (if active) */
volatile transient MarshalledObject<? extends Remote> stub = null;
volatile transient boolean removed = false;
ObjectEntry(ActivationDesc desc) {
this.desc = desc;
}
synchronized MarshalledObject<? extends Remote>
activate(ActivationID id,
boolean force,
ActivationInstantiator inst)
throws RemoteException, ActivationException
{
MarshalledObject<? extends Remote> nstub = stub;
if (removed) {
throw new UnknownObjectException("object removed");
} else if (!force && nstub != null) {
return nstub;
}
nstub = inst.newInstance(id, desc);
stub = nstub;
/*
* stub could be set to null by a group reset, so return
* the newstub here to prevent returning null.
*/
return nstub;
}
void reset() {
stub = null;
}
}
/**
* Add a record to the activation log. If the number of updates
* passes a predetermined threshold, record a snapshot.
*/
private void addLogRecord(LogRecord rec) throws ActivationException {
synchronized (log) {
checkShutdown();
try {
log.update(rec, true);
} catch (Exception e) {
numUpdates = snapshotInterval;
System.err.println(getTextResource("rmid.log.update.warning"));
e.printStackTrace();
}
if (++numUpdates < snapshotInterval) {
return;
}
try {
log.snapshot(this);
numUpdates = 0;
} catch (Exception e) {
System.err.println(
getTextResource("rmid.log.snapshot.warning"));
e.printStackTrace();
try {
// shutdown activation system because snapshot failed
system.shutdown();
} catch (RemoteException ignore) {
// can't happen
}
// warn the client of the original update problem
throw new ActivationException("log snapshot failed", e);
}
}
}
/**
* Handler for the log that knows how to take the initial snapshot
* and apply an update (a LogRecord) to the current state.
*/
private static class ActLogHandler extends LogHandler {
ActLogHandler() {
}
public Object initialSnapshot()
{
/**
* Return an empty Activation object. Log will update
* this object with recovered state.
*/
return new Activation();
}
public Object applyUpdate(Object update, Object state)
throws Exception
{
return ((LogRecord) update).apply(state);
}
}
/**
* Abstract class for all log records. The subclass contains
* specific update information and implements the apply method
* that applys the update information contained in the record
* to the current state.
*/
private static abstract class LogRecord implements Serializable {
/** indicate compatibility with JDK 1.2 version of class */
private static final long serialVersionUID = 8395140512322687529L;
abstract Object apply(Object state) throws Exception;
}
/**
* Log record for registering an object.
*/
private static class LogRegisterObject extends LogRecord {
/** indicate compatibility with JDK 1.2 version of class */
private static final long serialVersionUID = -6280336276146085143L;
private ActivationID id;
private ActivationDesc desc;
LogRegisterObject(ActivationID id, ActivationDesc desc) {
this.id = id;
this.desc = desc;
}
Object apply(Object state) {
try {
((Activation) state).getGroupEntry(desc.getGroupID()).
registerObject(id, desc, false);
} catch (Exception ignore) {
System.err.println(
MessageFormat.format(
getTextResource("rmid.log.recover.warning"),
"LogRegisterObject"));
ignore.printStackTrace();
}
return state;
}
}
/**
* Log record for unregistering an object.
*/
private static class LogUnregisterObject extends LogRecord {
/** indicate compatibility with JDK 1.2 version of class */
private static final long serialVersionUID = 6269824097396935501L;
private ActivationID id;
LogUnregisterObject(ActivationID id) {
this.id = id;
}
Object apply(Object state) {
try {
((Activation) state).getGroupEntry(id).
unregisterObject(id, false);
} catch (Exception ignore) {
System.err.println(
MessageFormat.format(
getTextResource("rmid.log.recover.warning"),
"LogUnregisterObject"));
ignore.printStackTrace();
}
return state;
}
}
/**
* Log record for registering a group.
*/
private static class LogRegisterGroup extends LogRecord {
/** indicate compatibility with JDK 1.2 version of class */
private static final long serialVersionUID = -1966827458515403625L;
private ActivationGroupID id;
private ActivationGroupDesc desc;
LogRegisterGroup(ActivationGroupID id, ActivationGroupDesc desc) {
this.id = id;
this.desc = desc;
}
Object apply(Object state) {
// modify state directly; cant ask a nonexistent GroupEntry
// to register itself.
((Activation) state).groupTable.put(id, ((Activation) state).new
GroupEntry(id, desc));
return state;
}
}
/**
* Log record for udpating an activation desc
*/
private static class LogUpdateDesc extends LogRecord {
/** indicate compatibility with JDK 1.2 version of class */
private static final long serialVersionUID = 545511539051179885L;
private ActivationID id;
private ActivationDesc desc;
LogUpdateDesc(ActivationID id, ActivationDesc desc) {
this.id = id;
this.desc = desc;
}
Object apply(Object state) {
try {
((Activation) state).getGroupEntry(id).
setActivationDesc(id, desc, false);
} catch (Exception ignore) {
System.err.println(
MessageFormat.format(
getTextResource("rmid.log.recover.warning"),
"LogUpdateDesc"));
ignore.printStackTrace();
}
return state;
}
}
/**
* Log record for unregistering a group.
*/
private static class LogUpdateGroupDesc extends LogRecord {
/** indicate compatibility with JDK 1.2 version of class */
private static final long serialVersionUID = -1271300989218424337L;
private ActivationGroupID id;
private ActivationGroupDesc desc;
LogUpdateGroupDesc(ActivationGroupID id, ActivationGroupDesc desc) {
this.id = id;
this.desc = desc;
}
Object apply(Object state) {
try {
((Activation) state).getGroupEntry(id).
setActivationGroupDesc(id, desc, false);
} catch (Exception ignore) {
System.err.println(
MessageFormat.format(
getTextResource("rmid.log.recover.warning"),
"LogUpdateGroupDesc"));
ignore.printStackTrace();
}
return state;
}
}
/**
* Log record for unregistering a group.
*/
private static class LogUnregisterGroup extends LogRecord {
/** indicate compatibility with JDK 1.2 version of class */
private static final long serialVersionUID = -3356306586522147344L;
private ActivationGroupID id;
LogUnregisterGroup(ActivationGroupID id) {
this.id = id;
}
Object apply(Object state) {
GroupEntry entry = ((Activation) state).groupTable.remove(id);
try {
entry.unregisterGroup(false);
} catch (Exception ignore) {
System.err.println(
MessageFormat.format(
getTextResource("rmid.log.recover.warning"),
"LogUnregisterGroup"));
ignore.printStackTrace();
}
return state;
}
}
/**
* Log record for an active group incarnation
*/
private static class LogGroupIncarnation extends LogRecord {
/** indicate compatibility with JDK 1.2 version of class */
private static final long serialVersionUID = 4146872747377631897L;
private ActivationGroupID id;
private long inc;
LogGroupIncarnation(ActivationGroupID id, long inc) {
this.id = id;
this.inc = inc;
}
Object apply(Object state) {
try {
GroupEntry entry = ((Activation) state).getGroupEntry(id);
entry.incarnation = inc;
} catch (Exception ignore) {
System.err.println(
MessageFormat.format(
getTextResource("rmid.log.recover.warning"),
"LogGroupIncarnation"));
ignore.printStackTrace();
}
return state;
}
}
/**
* Initialize command to exec a default group.
*/
private void initCommand(String[] childArgs) {
command = new String[childArgs.length + 2];
AccessController.doPrivileged(new PrivilegedAction<Void>() {
public Void run() {
try {
command[0] = System.getProperty("java.home") +
File.separator + "bin" + File.separator + "java";
} catch (Exception e) {
System.err.println(
getTextResource("rmid.unfound.java.home.property"));
command[0] = "java";
}
return null;
}
});
System.arraycopy(childArgs, 0, command, 1, childArgs.length);
command[command.length-1] = "sun.rmi.server.ActivationGroupInit";
}
private static void bomb(String error) {
System.err.println("rmid: " + error); // $NON-NLS$
System.err.println(MessageFormat.format(getTextResource("rmid.usage"),
"rmid"));
System.exit(1);
}
/**
* The default policy for checking a command before it is executed
* makes sure the appropriate com.sun.rmi.rmid.ExecPermission and
* set of com.sun.rmi.rmid.ExecOptionPermissions have been granted.
*/
public static class DefaultExecPolicy {
public void checkExecCommand(ActivationGroupDesc desc, String[] cmd)
throws SecurityException
{
PermissionCollection perms = getExecPermissions();
/*
* Check properties overrides.
*/
Properties props = desc.getPropertyOverrides();
if (props != null) {
Enumeration<?> p = props.propertyNames();
while (p.hasMoreElements()) {
String name = (String) p.nextElement();
String value = props.getProperty(name);
String option = "-D" + name + "=" + value;
try {
checkPermission(perms,
new ExecOptionPermission(option));
} catch (AccessControlException e) {
if (value.equals("")) {
checkPermission(perms,
new ExecOptionPermission("-D" + name));
} else {
throw e;
}
}
}
}
/*
* Check group class name (allow nothing but the default),
* code location (must be null), and data (must be null).
*/
String groupClassName = desc.getClassName();
if ((groupClassName != null &&
!groupClassName.equals(
ActivationGroupImpl.class.getName())) ||
(desc.getLocation() != null) ||
(desc.getData() != null))
{
throw new AccessControlException(
"access denied (custom group implementation not allowed)");
}
/*
* If group descriptor has a command environment, check
* command and options.
*/
ActivationGroupDesc.CommandEnvironment cmdenv;
cmdenv = desc.getCommandEnvironment();
if (cmdenv != null) {
String path = cmdenv.getCommandPath();
if (path != null) {
checkPermission(perms, new ExecPermission(path));
}
String[] options = cmdenv.getCommandOptions();
if (options != null) {
for (String option : options) {
checkPermission(perms,
new ExecOptionPermission(option));
}
}
}
}
/**
* Prints warning message if installed Policy is the default Policy
* implementation and globally granted permissions do not include
* AllPermission or any ExecPermissions/ExecOptionPermissions.
*/
static void checkConfiguration() {
Policy policy =
AccessController.doPrivileged(new PrivilegedAction<Policy>() {
public Policy run() {
return Policy.getPolicy();
}
});
if (!(policy instanceof PolicyFile)) {
return;
}
PermissionCollection perms = getExecPermissions();
for (Enumeration<Permission> e = perms.elements();
e.hasMoreElements();)
{
Permission p = e.nextElement();
if (p instanceof AllPermission ||
p instanceof ExecPermission ||
p instanceof ExecOptionPermission)
{
return;
}
}
System.err.println(getTextResource("rmid.exec.perms.inadequate"));
}
private static PermissionCollection getExecPermissions() {
/*
* The approach used here is taken from the similar method
* getLoaderAccessControlContext() in the class
* sun.rmi.server.LoaderHandler.
*/
// obtain permissions granted to all code in current policy
PermissionCollection perms = AccessController.doPrivileged(
new PrivilegedAction<PermissionCollection>() {
public PermissionCollection run() {
CodeSource codesource =
new CodeSource(null, (Certificate[]) null);
Policy p = Policy.getPolicy();
if (p != null) {
return p.getPermissions(codesource);
} else {
return new Permissions();
}
}
});
return perms;
}
private static void checkPermission(PermissionCollection perms,
Permission p)
throws AccessControlException
{
if (!perms.implies(p)) {
throw new AccessControlException(
"access denied " + p.toString());
}
}
}
/**
* Main program to start the activation system. <br>
* The usage is as follows: rmid [-port num] [-log dir].
*/
public static void main(String[] args) {
boolean stop = false;
// Create and install the security manager if one is not installed
// already.
if (System.getSecurityManager() == null) {
System.setSecurityManager(new SecurityManager());
}
try {
int port = ActivationSystem.SYSTEM_PORT;
RMIServerSocketFactory ssf = null;
/*
* If rmid has an inherited channel (meaning that it was
* launched from inetd), set the server socket factory to
* return the inherited server socket.
**/
Channel inheritedChannel = AccessController.doPrivileged(
new PrivilegedExceptionAction<Channel>() {
public Channel run() throws IOException {
return System.inheritedChannel();
}
});
if (inheritedChannel != null &&
inheritedChannel instanceof ServerSocketChannel)
{
/*
* Redirect System.err output to a file.
*/
AccessController.doPrivileged(
new PrivilegedExceptionAction<Void>() {
public Void run() throws IOException {
File file =
File.createTempFile("rmid-err", null, null);
PrintStream errStream =
new PrintStream(new FileOutputStream(file));
System.setErr(errStream);
return null;
}
});
ServerSocket serverSocket =
((ServerSocketChannel) inheritedChannel).socket();
port = serverSocket.getLocalPort();
ssf = new ActivationServerSocketFactory(serverSocket);
System.err.println(new Date());
System.err.println(getTextResource(
"rmid.inherited.channel.info") +
": " + inheritedChannel);
}
String log = null;
List<String> childArgs = new ArrayList<String>();
/*
* Parse arguments
*/
for (int i = 0; i < args.length; i++) {
if (args[i].equals("-port")) {
if (ssf != null) {
bomb(getTextResource("rmid.syntax.port.badarg"));
}
if ((i + 1) < args.length) {
try {
port = Integer.parseInt(args[++i]);
} catch (NumberFormatException nfe) {
bomb(getTextResource("rmid.syntax.port.badnumber"));
}
} else {
bomb(getTextResource("rmid.syntax.port.missing"));
}
} else if (args[i].equals("-log")) {
if ((i + 1) < args.length) {
log = args[++i];
} else {
bomb(getTextResource("rmid.syntax.log.missing"));
}
} else if (args[i].equals("-stop")) {
stop = true;
} else if (args[i].startsWith("-C")) {
childArgs.add(args[i].substring(2));
} else {
bomb(MessageFormat.format(
getTextResource("rmid.syntax.illegal.option"),
args[i]));
}
}
if (log == null) {
if (ssf != null) {
bomb(getTextResource("rmid.syntax.log.required"));
} else {
log = "log";
}
}
debugExec = AccessController.doPrivileged(
new GetBooleanAction("sun.rmi.server.activation.debugExec"));
/**
* Determine class name for activation exec policy (if any).
*/
String execPolicyClassName = AccessController.doPrivileged(
new GetPropertyAction("sun.rmi.activation.execPolicy", null));
if (execPolicyClassName == null) {
if (!stop) {
DefaultExecPolicy.checkConfiguration();
}
execPolicyClassName = "default";
}
/**
* Initialize method for activation exec policy.
*/
if (!execPolicyClassName.equals("none")) {
if (execPolicyClassName.equals("") ||
execPolicyClassName.equals("default"))
{
execPolicyClassName = DefaultExecPolicy.class.getName();
}
try {
Class<?> execPolicyClass =
RMIClassLoader.loadClass(execPolicyClassName);
execPolicy = execPolicyClass.newInstance();
execPolicyMethod =
execPolicyClass.getMethod("checkExecCommand",
ActivationGroupDesc.class,
String[].class);
} catch (Exception e) {
if (debugExec) {
System.err.println(
getTextResource("rmid.exec.policy.exception"));
e.printStackTrace();
}
bomb(getTextResource("rmid.exec.policy.invalid"));
}
}
if (stop == true) {
final int finalPort = port;
AccessController.doPrivileged(new PrivilegedAction<Void>() {
public Void run() {
System.setProperty("java.rmi.activation.port",
Integer.toString(finalPort));
return null;
}
});
ActivationSystem system = ActivationGroup.getSystem();
system.shutdown();
System.exit(0);
}
/*
* Fix for 4173960: Create and initialize activation using
* a static method, startActivation, which will build the
* Activation state in two ways: if when rmid is run, no
* log file is found, the ActLogHandler.recover(...)
* method will create a new Activation instance.
* Alternatively, if a logfile is available, a serialized
* instance of activation will be read from the log's
* snapshot file. Log updates will be applied to this
* Activation object until rmid's state has been fully
* recovered. In either case, only one instance of
* Activation is created.
*/
startActivation(port, ssf, log,
childArgs.toArray(new String[childArgs.size()]));
// prevent activator from exiting
while (true) {
try {
Thread.sleep(Long.MAX_VALUE);
} catch (InterruptedException e) {
}
}
} catch (Exception e) {
System.err.println(
MessageFormat.format(
getTextResource("rmid.unexpected.exception"), e));
e.printStackTrace();
}
System.exit(1);
}
/**
* Retrieves text resources from the locale-specific properties file.
*/
private static String getTextResource(String key) {
if (Activation.resources == null) {
try {
Activation.resources = ResourceBundle.getBundle(
"sun.rmi.server.resources.rmid");
} catch (MissingResourceException mre) {
}
if (Activation.resources == null) {
// throwing an Error is a bit extreme, methinks
return ("[missing resource file: " + key + "]");
}
}
String val = null;
try {
val = Activation.resources.getString (key);
} catch (MissingResourceException mre) {
}
if (val == null) {
return ("[missing resource: " + key + "]");
} else {
return val;
}
}
/*
* Dijkstra semaphore operations to limit the number of subprocesses
* rmid attempts to make at once.
*/
/**
* Acquire the group semaphore and return a group name. Each
* Pstartgroup must be followed by a Vstartgroup. The calling thread
* will wait until there are fewer than <code>N</code> other threads
* holding the group semaphore. The calling thread will then acquire
* the semaphore and return.
*/
private synchronized String Pstartgroup() throws ActivationException {
while (true) {
checkShutdown();
// Wait until positive, then decrement.
if (groupSemaphore > 0) {
groupSemaphore--;
return "Group-" + groupCounter++;
}
try {
wait();
} catch (InterruptedException e) {
}
}
}
/**
* Release the group semaphore. Every P operation must be
* followed by a V operation. This may cause another thread to
* wake up and return from its P operation.
*/
private synchronized void Vstartgroup() {
// Increment and notify a waiter (not necessarily FIFO).
groupSemaphore++;
notifyAll();
}
/**
* A server socket factory to use when rmid is launched via 'inetd'
* with 'wait' status. This socket factory's 'createServerSocket'
* method returns the server socket specified during construction that
* is specialized to delay accepting requests until the
* 'initDone' flag is 'true'. The server socket supplied to
* the constructor should be the server socket obtained from the
* ServerSocketChannel returned from the 'System.inheritedChannel'
* method.
**/
private static class ActivationServerSocketFactory
implements RMIServerSocketFactory
{
private final ServerSocket serverSocket;
/**
* Constructs an 'ActivationServerSocketFactory' with the specified
* 'serverSocket'.
**/
ActivationServerSocketFactory(ServerSocket serverSocket) {
this.serverSocket = serverSocket;
}
/**
* Returns the server socket specified during construction wrapped
* in a 'DelayedAcceptServerSocket'.
**/
public ServerSocket createServerSocket(int port)
throws IOException
{
return new DelayedAcceptServerSocket(serverSocket);
}
}
/**
* A server socket that delegates all public methods to the underlying
* server socket specified at construction. The accept method is
* overridden to delay calling accept on the underlying server socket
* until the 'initDone' flag is 'true'.
**/
private static class DelayedAcceptServerSocket extends ServerSocket {
private final ServerSocket serverSocket;
DelayedAcceptServerSocket(ServerSocket serverSocket)
throws IOException
{
this.serverSocket = serverSocket;
}
public void bind(SocketAddress endpoint) throws IOException {
serverSocket.bind(endpoint);
}
public void bind(SocketAddress endpoint, int backlog)
throws IOException
{
serverSocket.bind(endpoint, backlog);
}
public InetAddress getInetAddress() {
return serverSocket.getInetAddress();
}
public int getLocalPort() {
return serverSocket.getLocalPort();
}
public SocketAddress getLocalSocketAddress() {
return serverSocket.getLocalSocketAddress();
}
/**
* Delays calling accept on the underlying server socket until the
* remote service is bound in the registry.
**/
public Socket accept() throws IOException {
synchronized (initLock) {
try {
while (!initDone) {
initLock.wait();
}
} catch (InterruptedException ignore) {
throw new AssertionError(ignore);
}
}
return serverSocket.accept();
}
public void close() throws IOException {
serverSocket.close();
}
public ServerSocketChannel getChannel() {
return serverSocket.getChannel();
}
public boolean isBound() {
return serverSocket.isBound();
}
public boolean isClosed() {
return serverSocket.isClosed();
}
public void setSoTimeout(int timeout)
throws SocketException
{
serverSocket.setSoTimeout(timeout);
}
public int getSoTimeout() throws IOException {
return serverSocket.getSoTimeout();
}
public void setReuseAddress(boolean on) throws SocketException {
serverSocket.setReuseAddress(on);
}
public boolean getReuseAddress() throws SocketException {
return serverSocket.getReuseAddress();
}
public String toString() {
return serverSocket.toString();
}
public void setReceiveBufferSize(int size)
throws SocketException
{
serverSocket.setReceiveBufferSize(size);
}
public int getReceiveBufferSize()
throws SocketException
{
return serverSocket.getReceiveBufferSize();
}
}
}
/**
* PipeWriter plugs together two pairs of input and output streams by
* providing readers for input streams and writing through to
* appropriate output streams. Both output streams are annotated on a
* per-line basis.
*
* @author Laird Dornin, much code borrowed from Peter Jones, Ken
* Arnold and Ann Wollrath.
*/
class PipeWriter implements Runnable {
/** stream used for buffering lines */
private ByteArrayOutputStream bufOut;
/** count since last separator */
private int cLast;
/** current chunk of input being compared to lineSeparator.*/
private byte[] currSep;
private PrintWriter out;
private InputStream in;
private String pipeString;
private String execString;
private static String lineSeparator;
private static int lineSeparatorLength;
private static int numExecs = 0;
static {
lineSeparator = AccessController.doPrivileged(
new GetPropertyAction("line.separator"));
lineSeparatorLength = lineSeparator.length();
}
/**
* Create a new PipeWriter object. All methods of PipeWriter,
* except plugTogetherPair, are only accesible to PipeWriter
* itself. Synchronization is unnecessary on functions that will
* only be used internally in PipeWriter.
*
* @param in input stream from which pipe input flows
* @param out output stream to which log messages will be sent
* @param dest String which tags output stream as 'out' or 'err'
* @param nExecs number of execed processes, Activation groups.
*/
private PipeWriter
(InputStream in, OutputStream out, String tag, int nExecs) {
this.in = in;
this.out = new PrintWriter(out);
bufOut = new ByteArrayOutputStream();
currSep = new byte[lineSeparatorLength];
/* set unique pipe/pair annotations */
execString = ":ExecGroup-" +
Integer.toString(nExecs) + ':' + tag + ':';
}
/**
* Create a thread to listen and read from input stream, in. buffer
* the data that is read until a marker which equals lineSeparator
* is read. Once such a string has been discovered; write out an
* annotation string followed by the buffered data and a line
* separator.
*/
public void run() {
byte[] buf = new byte[256];
int count;
try {
/* read bytes till there are no more. */
while ((count = in.read(buf)) != -1) {
write(buf, 0, count);
}
/* flush internal buffer... may not have ended on a line
* separator, we also need a last annotation if
* something was left.
*/
String lastInBuffer = bufOut.toString();
bufOut.reset();
if (lastInBuffer.length() > 0) {
out.println (createAnnotation() + lastInBuffer);
out.flush(); // add a line separator
// to make output nicer
}
} catch (IOException e) {
}
}
/**
* Write a subarray of bytes. Pass each through write byte method.
*/
private void write(byte b[], int off, int len) throws IOException {
if (len < 0) {
throw new ArrayIndexOutOfBoundsException(len);
}
for (int i = 0; i < len; ++ i) {
write(b[off + i]);
}
}
/**
* Write a byte of data to the stream. If we have not matched a
* line separator string, then the byte is appended to the internal
* buffer. If we have matched a line separator, then the currently
* buffered line is sent to the output writer with a prepended
* annotation string.
*/
private void write(byte b) throws IOException {
int i = 0;
/* shift current to the left */
for (i = 1 ; i < (currSep.length); i ++) {
currSep[i-1] = currSep[i];
}
currSep[i-1] = b;
bufOut.write(b);
/* enough characters for a separator? */
if ( (cLast >= (lineSeparatorLength - 1)) &&
(lineSeparator.equals(new String(currSep))) ) {
cLast = 0;
/* write prefix through to underlying byte stream */
out.print(createAnnotation() + bufOut.toString());
out.flush();
bufOut.reset();
if (out.checkError()) {
throw new IOException
("PipeWriter: IO Exception when"+
" writing to output stream.");
}
} else {
cLast++;
}
}
/**
* Create an annotation string to be printed out after
* a new line and end of stream.
*/
private String createAnnotation() {
/* construct prefix for log messages:
* date/time stamp...
*/
return ((new Date()).toString() +
/* ... print pair # ... */
(execString));
}
/**
* Allow plugging together two pipes at a time, to associate
* output from an execed process. This is the only publicly
* accessible method of this object; this helps ensure that
* synchronization will not be an issue in the annotation
* process.
*
* @param in input stream from which pipe input comes
* @param out output stream to which log messages will be sent
* @param in1 input stream from which pipe input comes
* @param out1 output stream to which log messages will be sent
*/
static void plugTogetherPair(InputStream in,
OutputStream out,
InputStream in1,
OutputStream out1) {
Thread inThread = null;
Thread outThread = null;
int nExecs = getNumExec();
/* start RMI threads to read output from child process */
inThread = AccessController.doPrivileged(
new NewThreadAction(new PipeWriter(in, out, "out", nExecs),
"out", true));
outThread = AccessController.doPrivileged(
new NewThreadAction(new PipeWriter(in1, out1, "err", nExecs),
"err", true));
inThread.start();
outThread.start();
}
private static synchronized int getNumExec() {
return numExecs++;
}
}