/* * Copyright (C) 2014 The Android Open Source Project * Copyright (c) 2000, 2013, 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 java.util.logging; import java.io.*; import java.util.*; import java.security.*; import java.lang.ref.ReferenceQueue; import java.lang.ref.WeakReference; import java.lang.reflect.Constructor; import java.lang.reflect.InvocationTargetException; import java.lang.reflect.Method; import java.beans.PropertyChangeListener; /** * There is a single global LogManager object that is used to * maintain a set of shared state about Loggers and log services. *

* This LogManager object: *

*

* The global LogManager object can be retrieved using LogManager.getLogManager(). * The LogManager object is created during class initialization and * cannot subsequently be changed. *

* At startup the LogManager class is located using the * java.util.logging.manager system property. *

* The LogManager defines two optional system properties that allow control over * the initial configuration: *

* These two properties may be specified on the command line to the "java" * command, or as system property definitions passed to JNI_CreateJavaVM. *

* If the "java.util.logging.config.class" property is set, then the * property value is treated as a class name. The given class will be * loaded, an object will be instantiated, and that object's constructor * is responsible for reading in the initial configuration. (That object * may use other system properties to control its configuration.) The * alternate configuration class can use readConfiguration(InputStream) * to define properties in the LogManager. *

* If "java.util.logging.config.class" property is not set, * then the "java.util.logging.config.file" system property can be used * to specify a properties file (in java.util.Properties format). The * initial logging configuration will be read from this file. *

* If neither of these properties is defined then the LogManager uses its * default configuration. The default configuration is typically loaded from the * properties file "{@code lib/logging.properties}" in the Java installation * directory. *

* The properties for loggers and Handlers will have names starting * with the dot-separated name for the handler or logger. *

* The global logging properties may include: *

*

* Note that all classes loaded during LogManager configuration are * first searched on the system class path before any user class path. * That includes the LogManager class, any config classes, and any * handler classes. *

* Loggers are organized into a naming hierarchy based on their * dot separated names. Thus "a.b.c" is a child of "a.b", but * "a.b1" and a.b2" are peers. *

* All properties whose names end with ".level" are assumed to define * log levels for Loggers. Thus "foo.level" defines a log level for * the logger called "foo" and (recursively) for any of its children * in the naming hierarchy. Log Levels are applied in the order they * are defined in the properties file. Thus level settings for child * nodes in the tree should come after settings for their parents. * The property name ".level" can be used to set the level for the * root of the tree. *

* All methods on the LogManager object are multi-thread safe. * * @since 1.4 */ public class LogManager { // The global LogManager object private static final LogManager manager; // 'props' is assigned within a lock but accessed without it. // Declaring it volatile makes sure that another thread will not // be able to see a partially constructed 'props' object. // (seeing a partially constructed 'props' object can result in // NPE being thrown in Hashtable.get(), because it leaves the door // open for props.getProperties() to be called before the construcor // of Hashtable is actually completed). private volatile Properties props = new Properties(); private final static Level defaultLevel = Level.INFO; // The map of the registered listeners. The map value is the registration // count to allow for cases where the same listener is registered many times. private final Map listenerMap = new HashMap<>(); // LoggerContext for system loggers and user loggers private final LoggerContext systemContext = new SystemLoggerContext(); private final LoggerContext userContext = new LoggerContext(); // non final field - make it volatile to make sure that other threads // will see the new value once ensureLogManagerInitialized() has finished // executing. private volatile Logger rootLogger; // Have we done the primordial reading of the configuration file? // (Must be done after a suitable amount of java.lang.System // initialization has been done) private volatile boolean readPrimordialConfiguration; // Have we initialized global (root) handlers yet? // This gets set to false in readConfiguration private boolean initializedGlobalHandlers = true; // True if JVM death is imminent and the exit hook has been called. private boolean deathImminent; static { manager = AccessController.doPrivileged(new PrivilegedAction() { @Override public LogManager run() { LogManager mgr = null; String cname = null; try { cname = System.getProperty("java.util.logging.manager"); if (cname != null) { mgr = (LogManager) getClassInstance(cname).newInstance(); } } catch (Exception ex) { System.err.println("Could not load Logmanager \"" + cname + "\""); ex.printStackTrace(); } if (mgr == null) { mgr = new LogManager(); } return mgr; } }); } // This private class is used as a shutdown hook. // It does a "reset" to close all open handlers. private class Cleaner extends Thread { private Cleaner() { /* Set context class loader to null in order to avoid * keeping a strong reference to an application classloader. */ this.setContextClassLoader(null); } @Override public void run() { // This is to ensure the LogManager. is completed // before synchronized block. Otherwise deadlocks are possible. LogManager mgr = manager; // If the global handlers haven't been initialized yet, we // don't want to initialize them just so we can close them! synchronized (LogManager.this) { // Note that death is imminent. deathImminent = true; initializedGlobalHandlers = true; } // Do a reset to close all active handlers. reset(); } } /** * Protected constructor. This is protected so that container applications * (such as J2EE containers) can subclass the object. It is non-public as * it is intended that there only be one LogManager object, whose value is * retrieved by calling LogManager.getLogManager. */ protected LogManager() { this(checkSubclassPermissions()); } private LogManager(Void checked) { // Add a shutdown hook to close the global handlers. try { Runtime.getRuntime().addShutdownHook(new Cleaner()); } catch (IllegalStateException e) { // If the VM is already shutting down, // We do not need to register shutdownHook. } } private static Void checkSubclassPermissions() { final SecurityManager sm = System.getSecurityManager(); if (sm != null) { // These permission will be checked in the LogManager constructor, // in order to register the Cleaner() thread as a shutdown hook. // Check them here to avoid the penalty of constructing the object // etc... sm.checkPermission(new RuntimePermission("shutdownHooks")); sm.checkPermission(new RuntimePermission("setContextClassLoader")); } return null; } /** * Lazy initialization: if this instance of manager is the global * manager then this method will read the initial configuration and * add the root logger and global logger by calling addLogger(). * * Note that it is subtly different from what we do in LoggerContext. * In LoggerContext we're patching up the logger context tree in order to add * the root and global logger *to the context tree*. * * For this to work, addLogger() must have already have been called * once on the LogManager instance for the default logger being * added. * * This is why ensureLogManagerInitialized() needs to be called before * any logger is added to any logger context. * */ private boolean initializedCalled = false; private volatile boolean initializationDone = false; final void ensureLogManagerInitialized() { final LogManager owner = this; if (initializationDone || owner != manager) { // we don't want to do this twice, and we don't want to do // this on private manager instances. return; } // Maybe another thread has called ensureLogManagerInitialized() // before us and is still executing it. If so we will block until // the log manager has finished initialized, then acquire the monitor, // notice that initializationDone is now true and return. // Otherwise - we have come here first! We will acquire the monitor, // see that initializationDone is still false, and perform the // initialization. // synchronized(this) { // If initializedCalled is true it means that we're already in // the process of initializing the LogManager in this thread. // There has been a recursive call to ensureLogManagerInitialized(). final boolean isRecursiveInitialization = (initializedCalled == true); assert initializedCalled || !initializationDone : "Initialization can't be done if initialized has not been called!"; if (isRecursiveInitialization || initializationDone) { // If isRecursiveInitialization is true it means that we're // already in the process of initializing the LogManager in // this thread. There has been a recursive call to // ensureLogManagerInitialized(). We should not proceed as // it would lead to infinite recursion. // // If initializationDone is true then it means the manager // has finished initializing; just return: we're done. return; } // Calling addLogger below will in turn call requiresDefaultLogger() // which will call ensureLogManagerInitialized(). // We use initializedCalled to break the recursion. initializedCalled = true; try { AccessController.doPrivileged(new PrivilegedAction() { @Override public Object run() { assert rootLogger == null; assert initializedCalled && !initializationDone; // Read configuration. owner.readPrimordialConfiguration(); // Create and retain Logger for the root of the namespace. owner.rootLogger = owner.new RootLogger(); owner.addLogger(owner.rootLogger); if (!owner.rootLogger.isLevelInitialized()) { owner.rootLogger.setLevel(defaultLevel); } // Adding the global Logger. // Do not call Logger.getGlobal() here as this might trigger // subtle inter-dependency issues. @SuppressWarnings("deprecation") final Logger global = Logger.global; // Make sure the global logger will be registered in the // global manager owner.addLogger(global); return null; } }); } finally { initializationDone = true; } } } /** * Returns the global LogManager object. * @return the global LogManager object */ public static LogManager getLogManager() { if (manager != null) { manager.ensureLogManagerInitialized(); } return manager; } private void readPrimordialConfiguration() { if (!readPrimordialConfiguration) { synchronized (this) { if (!readPrimordialConfiguration) { // If System.in/out/err are null, it's a good // indication that we're still in the // bootstrapping phase if (System.out == null) { return; } readPrimordialConfiguration = true; try { AccessController.doPrivileged(new PrivilegedExceptionAction() { @Override public Void run() throws Exception { readConfiguration(); // Platform loggers begin to delegate to java.util.logging.Logger sun.util.logging.PlatformLogger.redirectPlatformLoggers(); return null; } }); } catch (Exception ex) { assert false : "Exception raised while reading logging configuration: " + ex; } } } } } /** * Adds an event listener to be invoked when the logging * properties are re-read. Adding multiple instances of * the same event Listener results in multiple entries * in the property event listener table. * *

WARNING: This method is omitted from this class in all subset * Profiles of Java SE that do not include the {@code java.beans} package. *

* * @param l event listener * @exception SecurityException if a security manager exists and if * the caller does not have LoggingPermission("control"). * @exception NullPointerException if the PropertyChangeListener is null. * @deprecated The dependency on {@code PropertyChangeListener} creates a * significant impediment to future modularization of the Java * platform. This method will be removed in a future release. * The global {@code LogManager} can detect changes to the * logging configuration by overridding the {@link * #readConfiguration readConfiguration} method. */ @Deprecated public void addPropertyChangeListener(PropertyChangeListener l) throws SecurityException { PropertyChangeListener listener = Objects.requireNonNull(l); checkPermission(); synchronized (listenerMap) { // increment the registration count if already registered Integer value = listenerMap.get(listener); value = (value == null) ? 1 : (value + 1); listenerMap.put(listener, value); } } /** * Removes an event listener for property change events. * If the same listener instance has been added to the listener table * through multiple invocations of addPropertyChangeListener, * then an equivalent number of * removePropertyChangeListener invocations are required to remove * all instances of that listener from the listener table. *

* Returns silently if the given listener is not found. * *

WARNING: This method is omitted from this class in all subset * Profiles of Java SE that do not include the {@code java.beans} package. *

* * @param l event listener (can be null) * @exception SecurityException if a security manager exists and if * the caller does not have LoggingPermission("control"). * @deprecated The dependency on {@code PropertyChangeListener} creates a * significant impediment to future modularization of the Java * platform. This method will be removed in a future release. * The global {@code LogManager} can detect changes to the * logging configuration by overridding the {@link * #readConfiguration readConfiguration} method. */ @Deprecated public void removePropertyChangeListener(PropertyChangeListener l) throws SecurityException { checkPermission(); if (l != null) { PropertyChangeListener listener = l; synchronized (listenerMap) { Integer value = listenerMap.get(listener); if (value != null) { // remove from map if registration count is 1, otherwise // just decrement its count int i = value.intValue(); if (i == 1) { listenerMap.remove(listener); } else { assert i > 1; listenerMap.put(listener, i - 1); } } } } } // LoggerContext maps from AppContext private WeakHashMap contextsMap = null; // Returns the LoggerContext for the user code (i.e. application or AppContext). // Loggers are isolated from each AppContext. private LoggerContext getUserContext() { // Android-changed: No AWT specific hooks. return userContext; } // The system context. final LoggerContext getSystemContext() { return systemContext; } private List contexts() { List cxs = new ArrayList<>(); cxs.add(getSystemContext()); cxs.add(getUserContext()); return cxs; } // Find or create a specified logger instance. If a logger has // already been created with the given name it is returned. // Otherwise a new logger instance is created and registered // in the LogManager global namespace. // This method will always return a non-null Logger object. // Synchronization is not required here. All synchronization for // adding a new Logger object is handled by addLogger(). // // This method must delegate to the LogManager implementation to // add a new Logger or return the one that has been added previously // as a LogManager subclass may override the addLogger, getLogger, // readConfiguration, and other methods. Logger demandLogger(String name, String resourceBundleName, Class caller) { Logger result = getLogger(name); if (result == null) { // only allocate the new logger once Logger newLogger = new Logger(name, resourceBundleName, caller, this, false); do { if (addLogger(newLogger)) { // We successfully added the new Logger that we // created above so return it without refetching. return newLogger; } // We didn't add the new Logger that we created above // because another thread added a Logger with the same // name after our null check above and before our call // to addLogger(). We have to refetch the Logger because // addLogger() returns a boolean instead of the Logger // reference itself. However, if the thread that created // the other Logger is not holding a strong reference to // the other Logger, then it is possible for the other // Logger to be GC'ed after we saw it in addLogger() and // before we can refetch it. If it has been GC'ed then // we'll just loop around and try again. result = getLogger(name); } while (result == null); } return result; } Logger demandSystemLogger(String name, String resourceBundleName) { // Add a system logger in the system context's namespace final Logger sysLogger = getSystemContext().demandLogger(name, resourceBundleName); // Add the system logger to the LogManager's namespace if not exist // so that there is only one single logger of the given name. // System loggers are visible to applications unless a logger of // the same name has been added. Logger logger; do { // First attempt to call addLogger instead of getLogger // This would avoid potential bug in custom LogManager.getLogger // implementation that adds a logger if does not exist if (addLogger(sysLogger)) { // successfully added the new system logger logger = sysLogger; } else { logger = getLogger(name); } } while (logger == null); // LogManager will set the sysLogger's handlers via LogManager.addLogger method. if (logger != sysLogger && sysLogger.accessCheckedHandlers().length == 0) { // if logger already exists but handlers not set final Logger l = logger; AccessController.doPrivileged(new PrivilegedAction() { @Override public Void run() { for (Handler hdl : l.accessCheckedHandlers()) { sysLogger.addHandler(hdl); } return null; } }); } return sysLogger; } private static Class getClassInstance(String cname) { Class clz = null; if (cname != null) { try { clz = ClassLoader.getSystemClassLoader().loadClass(cname); } catch (ClassNotFoundException ex) { try { clz = Thread.currentThread().getContextClassLoader().loadClass(cname); } catch (ClassNotFoundException innerEx) { clz = null; } } } return clz; } // LoggerContext maintains the logger namespace per context. // The default LogManager implementation has one system context and user // context. The system context is used to maintain the namespace for // all system loggers and is queried by the system code. If a system logger // doesn't exist in the user context, it'll also be added to the user context. // The user context is queried by the user code and all other loggers are // added in the user context. class LoggerContext { // Table of named Loggers that maps names to Loggers. private final Hashtable namedLoggers = new Hashtable<>(); // Tree of named Loggers private final LogNode root; private LoggerContext() { this.root = new LogNode(null, this); } // Tells whether default loggers are required in this context. // If true, the default loggers will be lazily added. final boolean requiresDefaultLoggers() { final boolean requiresDefaultLoggers = (getOwner() == manager); if (requiresDefaultLoggers) { getOwner().ensureLogManagerInitialized(); } return requiresDefaultLoggers; } // This context's LogManager. final LogManager getOwner() { return LogManager.this; } // This context owner's root logger, which if not null, and if // the context requires default loggers, will be added to the context // logger's tree. final Logger getRootLogger() { return getOwner().rootLogger; } // The global logger, which if not null, and if // the context requires default loggers, will be added to the context // logger's tree. final Logger getGlobalLogger() { // Android-changed: s/deprecated/deprecation @SuppressWarnings("deprecation") // avoids initialization cycles. final Logger global = Logger.global; return global; } Logger demandLogger(String name, String resourceBundleName) { // a LogManager subclass may have its own implementation to add and // get a Logger. So delegate to the LogManager to do the work. final LogManager owner = getOwner(); return owner.demandLogger(name, resourceBundleName, null); } // Due to subtle deadlock issues getUserContext() no longer // calls addLocalLogger(rootLogger); // Therefore - we need to add the default loggers later on. // Checks that the context is properly initialized // This is necessary before calling e.g. find(name) // or getLoggerNames() // private void ensureInitialized() { if (requiresDefaultLoggers()) { // Ensure that the root and global loggers are set. ensureDefaultLogger(getRootLogger()); ensureDefaultLogger(getGlobalLogger()); } } synchronized Logger findLogger(String name) { // ensure that this context is properly initialized before // looking for loggers. ensureInitialized(); LoggerWeakRef ref = namedLoggers.get(name); if (ref == null) { return null; } Logger logger = ref.get(); if (logger == null) { // Hashtable holds stale weak reference // to a logger which has been GC-ed. ref.dispose(); } return logger; } // This method is called before adding a logger to the // context. // 'logger' is the context that will be added. // This method will ensure that the defaults loggers are added // before adding 'logger'. // private void ensureAllDefaultLoggers(Logger logger) { if (requiresDefaultLoggers()) { final String name = logger.getName(); if (!name.isEmpty()) { ensureDefaultLogger(getRootLogger()); if (!Logger.GLOBAL_LOGGER_NAME.equals(name)) { ensureDefaultLogger(getGlobalLogger()); } } } } private void ensureDefaultLogger(Logger logger) { // Used for lazy addition of root logger and global logger // to a LoggerContext. // This check is simple sanity: we do not want that this // method be called for anything else than Logger.global // or owner.rootLogger. if (!requiresDefaultLoggers() || logger == null || logger != Logger.global && logger != LogManager.this.rootLogger) { // the case where we have a non null logger which is neither // Logger.global nor manager.rootLogger indicates a serious // issue - as ensureDefaultLogger should never be called // with any other loggers than one of these two (or null - if // e.g manager.rootLogger is not yet initialized)... assert logger == null; return; } // Adds the logger if it's not already there. if (!namedLoggers.containsKey(logger.getName())) { // It is important to prevent addLocalLogger to // call ensureAllDefaultLoggers when we're in the process // off adding one of those default loggers - as this would // immediately cause a stack overflow. // Therefore we must pass addDefaultLoggersIfNeeded=false, // even if requiresDefaultLoggers is true. addLocalLogger(logger, false); } } boolean addLocalLogger(Logger logger) { // no need to add default loggers if it's not required return addLocalLogger(logger, requiresDefaultLoggers()); } boolean addLocalLogger(Logger logger, LogManager manager) { // no need to add default loggers if it's not required return addLocalLogger(logger, requiresDefaultLoggers(), manager); } boolean addLocalLogger(Logger logger, boolean addDefaultLoggersIfNeeded) { return addLocalLogger(logger, addDefaultLoggersIfNeeded, manager); } // Add a logger to this context. This method will only set its level // and process parent loggers. It doesn't set its handlers. synchronized boolean addLocalLogger(Logger logger, boolean addDefaultLoggersIfNeeded, LogManager manager) { // addDefaultLoggersIfNeeded serves to break recursion when adding // default loggers. If we're adding one of the default loggers // (we're being called from ensureDefaultLogger()) then // addDefaultLoggersIfNeeded will be false: we don't want to // call ensureAllDefaultLoggers again. // // Note: addDefaultLoggersIfNeeded can also be false when // requiresDefaultLoggers is false - since calling // ensureAllDefaultLoggers would have no effect in this case. if (addDefaultLoggersIfNeeded) { ensureAllDefaultLoggers(logger); } final String name = logger.getName(); if (name == null) { throw new NullPointerException(); } LoggerWeakRef ref = namedLoggers.get(name); if (ref != null) { if (ref.get() == null) { // It's possible that the Logger was GC'ed after a // drainLoggerRefQueueBounded() call above so allow // a new one to be registered. ref.dispose(); } else { // We already have a registered logger with the given name. return false; } } // We're adding a new logger. // Note that we are creating a weak reference here. final LogManager owner = getOwner(); logger.setLogManager(owner); ref = owner.new LoggerWeakRef(logger); namedLoggers.put(name, ref); // Apply any initial level defined for the new logger, unless // the logger's level is already initialized Level level = owner.getLevelProperty(name + ".level", null); if (level != null && !logger.isLevelInitialized()) { doSetLevel(logger, level); } // instantiation of the handler is done in the LogManager.addLogger // implementation as a handler class may be only visible to LogManager // subclass for the custom log manager case processParentHandlers(logger, name); // Find the new node and its parent. LogNode node = getNode(name); node.loggerRef = ref; Logger parent = null; LogNode nodep = node.parent; while (nodep != null) { LoggerWeakRef nodeRef = nodep.loggerRef; if (nodeRef != null) { parent = nodeRef.get(); if (parent != null) { break; } } nodep = nodep.parent; } if (parent != null) { doSetParent(logger, parent); } // Walk over the children and tell them we are their new parent. node.walkAndSetParent(logger); // new LogNode is ready so tell the LoggerWeakRef about it ref.setNode(node); return true; } synchronized void removeLoggerRef(String name, LoggerWeakRef ref) { namedLoggers.remove(name, ref); } synchronized Enumeration getLoggerNames() { // ensure that this context is properly initialized before // returning logger names. ensureInitialized(); return namedLoggers.keys(); } // If logger.getUseParentHandlers() returns 'true' and any of the logger's // parents have levels or handlers defined, make sure they are instantiated. private void processParentHandlers(final Logger logger, final String name) { final LogManager owner = getOwner(); AccessController.doPrivileged(new PrivilegedAction() { @Override public Void run() { if (logger != owner.rootLogger) { boolean useParent = owner.getBooleanProperty(name + ".useParentHandlers", true); if (!useParent) { logger.setUseParentHandlers(false); } } return null; } }); int ix = 1; for (;;) { int ix2 = name.indexOf(".", ix); if (ix2 < 0) { break; } String pname = name.substring(0, ix2); if (owner.getProperty(pname + ".level") != null || owner.getProperty(pname + ".handlers") != null) { // This pname has a level/handlers definition. // Make sure it exists. demandLogger(pname, null); } ix = ix2+1; } } // Gets a node in our tree of logger nodes. // If necessary, create it. LogNode getNode(String name) { if (name == null || name.equals("")) { return root; } LogNode node = root; while (name.length() > 0) { int ix = name.indexOf("."); String head; if (ix > 0) { head = name.substring(0, ix); name = name.substring(ix + 1); } else { head = name; name = ""; } if (node.children == null) { node.children = new HashMap<>(); } LogNode child = node.children.get(head); if (child == null) { child = new LogNode(node, this); node.children.put(head, child); } node = child; } return node; } } final class SystemLoggerContext extends LoggerContext { // Add a system logger in the system context's namespace as well as // in the LogManager's namespace if not exist so that there is only // one single logger of the given name. System loggers are visible // to applications unless a logger of the same name has been added. @Override Logger demandLogger(String name, String resourceBundleName) { Logger result = findLogger(name); if (result == null) { // only allocate the new system logger once Logger newLogger = new Logger(name, resourceBundleName, null, getOwner(), true); do { if (addLocalLogger(newLogger)) { // We successfully added the new Logger that we // created above so return it without refetching. result = newLogger; } else { // We didn't add the new Logger that we created above // because another thread added a Logger with the same // name after our null check above and before our call // to addLogger(). We have to refetch the Logger because // addLogger() returns a boolean instead of the Logger // reference itself. However, if the thread that created // the other Logger is not holding a strong reference to // the other Logger, then it is possible for the other // Logger to be GC'ed after we saw it in addLogger() and // before we can refetch it. If it has been GC'ed then // we'll just loop around and try again. result = findLogger(name); } } while (result == null); } return result; } } // Add new per logger handlers. // We need to raise privilege here. All our decisions will // be made based on the logging configuration, which can // only be modified by trusted code. private void loadLoggerHandlers(final Logger logger, final String name, final String handlersPropertyName) { AccessController.doPrivileged(new PrivilegedAction() { @Override public Object run() { String names[] = parseClassNames(handlersPropertyName); for (int i = 0; i < names.length; i++) { String word = names[i]; try { // Android-changed: Class clz = getClassInstance(word); Handler hdl = (Handler) clz.newInstance(); // Check if there is a property defining the // this handler's level. String levs = getProperty(word + ".level"); if (levs != null) { Level l = Level.findLevel(levs); if (l != null) { hdl.setLevel(l); } else { // Probably a bad level. Drop through. System.err.println("Can't set level for " + word); } } // Add this Handler to the logger logger.addHandler(hdl); } catch (Exception ex) { System.err.println("Can't load log handler \"" + word + "\""); System.err.println("" + ex); ex.printStackTrace(); } } return null; } }); } // loggerRefQueue holds LoggerWeakRef objects for Logger objects // that have been GC'ed. private final ReferenceQueue loggerRefQueue = new ReferenceQueue<>(); // Package-level inner class. // Helper class for managing WeakReferences to Logger objects. // // LogManager.namedLoggers // - has weak references to all named Loggers // - namedLoggers keeps the LoggerWeakRef objects for the named // Loggers around until we can deal with the book keeping for // the named Logger that is being GC'ed. // LogManager.LogNode.loggerRef // - has a weak reference to a named Logger // - the LogNode will also keep the LoggerWeakRef objects for // the named Loggers around; currently LogNodes never go away. // Logger.kids // - has a weak reference to each direct child Logger; this // includes anonymous and named Loggers // - anonymous Loggers are always children of the rootLogger // which is a strong reference; rootLogger.kids keeps the // LoggerWeakRef objects for the anonymous Loggers around // until we can deal with the book keeping. // final class LoggerWeakRef extends WeakReference { private String name; // for namedLoggers cleanup private LogNode node; // for loggerRef cleanup private WeakReference parentRef; // for kids cleanup private boolean disposed = false; // avoid calling dispose twice LoggerWeakRef(Logger logger) { super(logger, loggerRefQueue); name = logger.getName(); // save for namedLoggers cleanup } // dispose of this LoggerWeakRef object void dispose() { // Avoid calling dispose twice. When a Logger is gc'ed, its // LoggerWeakRef will be enqueued. // However, a new logger of the same name may be added (or looked // up) before the queue is drained. When that happens, dispose() // will be called by addLocalLogger() or findLogger(). // Later when the queue is drained, dispose() will be called again // for the same LoggerWeakRef. Marking LoggerWeakRef as disposed // avoids processing the data twice (even though the code should // now be reentrant). synchronized(this) { // Note to maintainers: // Be careful not to call any method that tries to acquire // another lock from within this block - as this would surely // lead to deadlocks, given that dispose() can be called by // multiple threads, and from within different synchronized // methods/blocks. if (disposed) return; disposed = true; } final LogNode n = node; if (n != null) { // n.loggerRef can only be safely modified from within // a lock on LoggerContext. removeLoggerRef is already // synchronized on LoggerContext so calling // n.context.removeLoggerRef from within this lock is safe. synchronized (n.context) { // if we have a LogNode, then we were a named Logger // so clear namedLoggers weak ref to us n.context.removeLoggerRef(name, this); name = null; // clear our ref to the Logger's name // LogNode may have been reused - so only clear // LogNode.loggerRef if LogNode.loggerRef == this if (n.loggerRef == this) { n.loggerRef = null; // clear LogNode's weak ref to us } node = null; // clear our ref to LogNode } } if (parentRef != null) { // this LoggerWeakRef has or had a parent Logger Logger parent = parentRef.get(); if (parent != null) { // the parent Logger is still there so clear the // parent Logger's weak ref to us parent.removeChildLogger(this); } parentRef = null; // clear our weak ref to the parent Logger } } // set the node field to the specified value void setNode(LogNode node) { this.node = node; } // set the parentRef field to the specified value void setParentRef(WeakReference parentRef) { this.parentRef = parentRef; } } // Package-level method. // Drain some Logger objects that have been GC'ed. // // drainLoggerRefQueueBounded() is called by addLogger() below // and by Logger.getAnonymousLogger(String) so we'll drain up to // MAX_ITERATIONS GC'ed Loggers for every Logger we add. // // On a WinXP VMware client, a MAX_ITERATIONS value of 400 gives // us about a 50/50 mix in increased weak ref counts versus // decreased weak ref counts in the AnonLoggerWeakRefLeak test. // Here are stats for cleaning up sets of 400 anonymous Loggers: // - test duration 1 minute // - sample size of 125 sets of 400 // - average: 1.99 ms // - minimum: 0.57 ms // - maximum: 25.3 ms // // The same config gives us a better decreased weak ref count // than increased weak ref count in the LoggerWeakRefLeak test. // Here are stats for cleaning up sets of 400 named Loggers: // - test duration 2 minutes // - sample size of 506 sets of 400 // - average: 0.57 ms // - minimum: 0.02 ms // - maximum: 10.9 ms // private final static int MAX_ITERATIONS = 400; final void drainLoggerRefQueueBounded() { for (int i = 0; i < MAX_ITERATIONS; i++) { if (loggerRefQueue == null) { // haven't finished loading LogManager yet break; } LoggerWeakRef ref = (LoggerWeakRef) loggerRefQueue.poll(); if (ref == null) { break; } // a Logger object has been GC'ed so clean it up ref.dispose(); } } /** * Add a named logger. This does nothing and returns false if a logger * with the same name is already registered. *

* The Logger factory methods call this method to register each * newly created Logger. *

* The application should retain its own reference to the Logger * object to avoid it being garbage collected. The LogManager * may only retain a weak reference. * * @param logger the new logger. * @return true if the argument logger was registered successfully, * false if a logger of that name already exists. * @exception NullPointerException if the logger name is null. */ public boolean addLogger(Logger logger) { final String name = logger.getName(); if (name == null) { throw new NullPointerException(); } drainLoggerRefQueueBounded(); LoggerContext cx = getUserContext(); if (cx.addLocalLogger(logger, this)) { // Do we have a per logger handler too? // Note: this will add a 200ms penalty loadLoggerHandlers(logger, name, name + ".handlers"); return true; } else { return false; } } // Private method to set a level on a logger. // If necessary, we raise privilege before doing the call. private static void doSetLevel(final Logger logger, final Level level) { SecurityManager sm = System.getSecurityManager(); if (sm == null) { // There is no security manager, so things are easy. logger.setLevel(level); return; } // There is a security manager. Raise privilege before // calling setLevel. AccessController.doPrivileged(new PrivilegedAction() { @Override public Object run() { logger.setLevel(level); return null; }}); } // Private method to set a parent on a logger. // If necessary, we raise privilege before doing the setParent call. private static void doSetParent(final Logger logger, final Logger parent) { SecurityManager sm = System.getSecurityManager(); if (sm == null) { // There is no security manager, so things are easy. logger.setParent(parent); return; } // There is a security manager. Raise privilege before // calling setParent. AccessController.doPrivileged(new PrivilegedAction() { @Override public Object run() { logger.setParent(parent); return null; }}); } /** * Method to find a named logger. *

* Note that since untrusted code may create loggers with * arbitrary names this method should not be relied on to * find Loggers for security sensitive logging. * It is also important to note that the Logger associated with the * String {@code name} may be garbage collected at any time if there * is no strong reference to the Logger. The caller of this method * must check the return value for null in order to properly handle * the case where the Logger has been garbage collected. *

* @param name name of the logger * @return matching logger or null if none is found */ public Logger getLogger(String name) { return getUserContext().findLogger(name); } /** * Get an enumeration of known logger names. *

* Note: Loggers may be added dynamically as new classes are loaded. * This method only reports on the loggers that are currently registered. * It is also important to note that this method only returns the name * of a Logger, not a strong reference to the Logger itself. * The returned String does nothing to prevent the Logger from being * garbage collected. In particular, if the returned name is passed * to {@code LogManager.getLogger()}, then the caller must check the * return value from {@code LogManager.getLogger()} for null to properly * handle the case where the Logger has been garbage collected in the * time since its name was returned by this method. *

* @return enumeration of logger name strings */ public Enumeration getLoggerNames() { return getUserContext().getLoggerNames(); } /** * Reinitialize the logging properties and reread the logging configuration. *

* The same rules are used for locating the configuration properties * as are used at startup. So normally the logging properties will * be re-read from the same file that was used at startup. *

* Any log level definitions in the new configuration file will be * applied using Logger.setLevel(), if the target Logger exists. *

* A PropertyChangeEvent will be fired after the properties are read. * * @exception SecurityException if a security manager exists and if * the caller does not have LoggingPermission("control"). * @exception IOException if there are IO problems reading the configuration. */ public void readConfiguration() throws IOException, SecurityException { checkPermission(); // if a configuration class is specified, load it and use it. String cname = System.getProperty("java.util.logging.config.class"); if (cname != null) { try { // Instantiate the named class. It is its constructor's // responsibility to initialize the logging configuration, by // calling readConfiguration(InputStream) with a suitable stream. getClassInstance(cname).newInstance(); return; } catch (Exception ex) { System.err.println("Logging configuration class \"" + cname + "\" failed"); System.err.println("" + ex); // keep going and useful config file. } } String fname = System.getProperty("java.util.logging.config.file"); if (fname == null) { fname = System.getProperty("java.home"); if (fname == null) { throw new Error("Can't find java.home ??"); } File f = new File(fname, "lib"); f = new File(f, "logging.properties"); fname = f.getCanonicalPath(); } // Android-changed: Look in the boot class-path jar files for the logging.properties. // It will not be present in the file system. InputStream in; try { in = new FileInputStream(fname); } catch (Exception e) { in = LogManager.class.getResourceAsStream("logging.properties"); if (in == null) { throw e; } } BufferedInputStream bin = new BufferedInputStream(in); try { readConfiguration(bin); } finally { if (in != null) { in.close(); } } } /** * Reset the logging configuration. *

* For all named loggers, the reset operation removes and closes * all Handlers and (except for the root logger) sets the level * to null. The root logger's level is set to Level.INFO. * * @exception SecurityException if a security manager exists and if * the caller does not have LoggingPermission("control"). */ public void reset() throws SecurityException { checkPermission(); synchronized (this) { props = new Properties(); // Since we are doing a reset we no longer want to initialize // the global handlers, if they haven't been initialized yet. initializedGlobalHandlers = true; } for (LoggerContext cx : contexts()) { Enumeration enum_ = cx.getLoggerNames(); while (enum_.hasMoreElements()) { String name = enum_.nextElement(); Logger logger = cx.findLogger(name); if (logger != null) { resetLogger(logger); } } } } // Private method to reset an individual target logger. private void resetLogger(Logger logger) { // Close all the Logger's handlers. Handler[] targets = logger.getHandlers(); for (int i = 0; i < targets.length; i++) { Handler h = targets[i]; logger.removeHandler(h); try { h.close(); } catch (Exception ex) { // Problems closing a handler? Keep going... } } String name = logger.getName(); if (name != null && name.equals("")) { // This is the root logger. logger.setLevel(defaultLevel); } else { logger.setLevel(null); } } // get a list of whitespace separated classnames from a property. private String[] parseClassNames(String propertyName) { String hands = getProperty(propertyName); if (hands == null) { return new String[0]; } hands = hands.trim(); int ix = 0; final List result = new ArrayList<>(); while (ix < hands.length()) { int end = ix; while (end < hands.length()) { if (Character.isWhitespace(hands.charAt(end))) { break; } if (hands.charAt(end) == ',') { break; } end++; } String word = hands.substring(ix, end); ix = end+1; word = word.trim(); if (word.length() == 0) { continue; } result.add(word); } return result.toArray(new String[result.size()]); } /** * Reinitialize the logging properties and reread the logging configuration * from the given stream, which should be in java.util.Properties format. * A PropertyChangeEvent will be fired after the properties are read. *

* Any log level definitions in the new configuration file will be * applied using Logger.setLevel(), if the target Logger exists. * * @param ins stream to read properties from * @exception SecurityException if a security manager exists and if * the caller does not have LoggingPermission("control"). * @exception IOException if there are problems reading from the stream. */ public void readConfiguration(InputStream ins) throws IOException, SecurityException { checkPermission(); reset(); // Load the properties props.load(ins); // Instantiate new configuration objects. String names[] = parseClassNames("config"); for (int i = 0; i < names.length; i++) { String word = names[i]; try { getClassInstance(word).newInstance(); } catch (Exception ex) { System.err.println("Can't load config class \"" + word + "\""); System.err.println("" + ex); // ex.printStackTrace(); } } // Set levels on any pre-existing loggers, based on the new properties. setLevelsOnExistingLoggers(); // Notify any interested parties that our properties have changed. // We first take a copy of the listener map so that we aren't holding any // locks when calling the listeners. Map listeners = null; synchronized (listenerMap) { if (!listenerMap.isEmpty()) listeners = new HashMap<>(listenerMap); } if (listeners != null) { assert Beans.isBeansPresent(); Object ev = Beans.newPropertyChangeEvent(LogManager.class, null, null, null); for (Map.Entry entry : listeners.entrySet()) { Object listener = entry.getKey(); int count = entry.getValue().intValue(); for (int i = 0; i < count; i++) { Beans.invokePropertyChange(listener, ev); } } } // Note that we need to reinitialize global handles when // they are first referenced. synchronized (this) { initializedGlobalHandlers = false; } } /** * Get the value of a logging property. * The method returns null if the property is not found. * @param name property name * @return property value */ public String getProperty(String name) { return props.getProperty(name); } // Package private method to get a String property. // If the property is not defined we return the given // default value. String getStringProperty(String name, String defaultValue) { String val = getProperty(name); if (val == null) { return defaultValue; } return val.trim(); } // Package private method to get an integer property. // If the property is not defined or cannot be parsed // we return the given default value. int getIntProperty(String name, int defaultValue) { String val = getProperty(name); if (val == null) { return defaultValue; } try { return Integer.parseInt(val.trim()); } catch (Exception ex) { return defaultValue; } } // Package private method to get a boolean property. // If the property is not defined or cannot be parsed // we return the given default value. boolean getBooleanProperty(String name, boolean defaultValue) { String val = getProperty(name); if (val == null) { return defaultValue; } val = val.toLowerCase(); if (val.equals("true") || val.equals("1")) { return true; } else if (val.equals("false") || val.equals("0")) { return false; } return defaultValue; } // Package private method to get a Level property. // If the property is not defined or cannot be parsed // we return the given default value. Level getLevelProperty(String name, Level defaultValue) { String val = getProperty(name); if (val == null) { return defaultValue; } Level l = Level.findLevel(val.trim()); return l != null ? l : defaultValue; } // Package private method to get a filter property. // We return an instance of the class named by the "name" // property. If the property is not defined or has problems // we return the defaultValue. Filter getFilterProperty(String name, Filter defaultValue) { String val = getProperty(name); try { if (val != null) { return (Filter) getClassInstance(val).newInstance(); } } catch (Exception ex) { // We got one of a variety of exceptions in creating the // class or creating an instance. // Drop through. } // We got an exception. Return the defaultValue. return defaultValue; } // Package private method to get a formatter property. // We return an instance of the class named by the "name" // property. If the property is not defined or has problems // we return the defaultValue. Formatter getFormatterProperty(String name, Formatter defaultValue) { String val = getProperty(name); try { if (val != null) { return (Formatter) getClassInstance(val).newInstance(); } } catch (Exception ex) { // We got one of a variety of exceptions in creating the // class or creating an instance. // Drop through. } // We got an exception. Return the defaultValue. return defaultValue; } // Private method to load the global handlers. // We do the real work lazily, when the global handlers // are first used. private synchronized void initializeGlobalHandlers() { if (initializedGlobalHandlers) { return; } initializedGlobalHandlers = true; if (deathImminent) { // Aaargh... // The VM is shutting down and our exit hook has been called. // Avoid allocating global handlers. return; } loadLoggerHandlers(rootLogger, null, "handlers"); } private final Permission controlPermission = new LoggingPermission("control", null); void checkPermission() { SecurityManager sm = System.getSecurityManager(); if (sm != null) sm.checkPermission(controlPermission); } /** * Check that the current context is trusted to modify the logging * configuration. This requires LoggingPermission("control"). *

* If the check fails we throw a SecurityException, otherwise * we return normally. * * @exception SecurityException if a security manager exists and if * the caller does not have LoggingPermission("control"). */ public void checkAccess() throws SecurityException { checkPermission(); } // Nested class to represent a node in our tree of named loggers. private static class LogNode { HashMap children; LoggerWeakRef loggerRef; LogNode parent; final LoggerContext context; LogNode(LogNode parent, LoggerContext context) { this.parent = parent; this.context = context; } // Recursive method to walk the tree below a node and set // a new parent logger. void walkAndSetParent(Logger parent) { if (children == null) { return; } Iterator values = children.values().iterator(); while (values.hasNext()) { LogNode node = values.next(); LoggerWeakRef ref = node.loggerRef; Logger logger = (ref == null) ? null : ref.get(); if (logger == null) { node.walkAndSetParent(parent); } else { doSetParent(logger, parent); } } } } // We use a subclass of Logger for the root logger, so // that we only instantiate the global handlers when they // are first needed. private final class RootLogger extends Logger { private RootLogger() { // We do not call the protected Logger two args constructor here, // to avoid calling LogManager.getLogManager() from within the // RootLogger constructor. super("", null, null, LogManager.this, true); } @Override public void log(LogRecord record) { // Make sure that the global handlers have been instantiated. initializeGlobalHandlers(); super.log(record); } @Override public void addHandler(Handler h) { initializeGlobalHandlers(); super.addHandler(h); } @Override public void removeHandler(Handler h) { initializeGlobalHandlers(); super.removeHandler(h); } @Override Handler[] accessCheckedHandlers() { initializeGlobalHandlers(); return super.accessCheckedHandlers(); } } // Private method to be called when the configuration has // changed to apply any level settings to any pre-existing loggers. synchronized private void setLevelsOnExistingLoggers() { Enumeration enum_ = props.propertyNames(); while (enum_.hasMoreElements()) { String key = (String)enum_.nextElement(); if (!key.endsWith(".level")) { // Not a level definition. continue; } int ix = key.length() - 6; String name = key.substring(0, ix); Level level = getLevelProperty(key, null); if (level == null) { System.err.println("Bad level value for property: " + key); continue; } for (LoggerContext cx : contexts()) { Logger l = cx.findLogger(name); if (l == null) { continue; } l.setLevel(level); } } } // Management Support private static LoggingMXBean loggingMXBean = null; /** * String representation of the {@code ObjectName} for the management interface * for the logging facility. * * @see java.util.logging.LoggingMXBean * * @since 1.5 */ // Android-changed: Remove reference to java.lang.management.ObjectName. // //@see java.lang.management.PlatformLoggingMXBean public final static String LOGGING_MXBEAN_NAME = "java.util.logging:type=Logging"; /** * Returns LoggingMXBean for managing loggers. * * @return a {@link LoggingMXBean} object. * * @since 1.5 */ // Android-removed docs areferring to java.lang.management. // // An alternative way to manage loggers is through the // {@link java.lang.management.PlatformLoggingMXBean} interface // that can be obtained by calling: //

    //     PlatformLoggingMXBean logging = {@link java.lang.management.ManagementFactory#getPlatformMXBean(Class)
    //        ManagementFactory.getPlatformMXBean}(PlatformLoggingMXBean.class);
    // 
// // @see java.lang.management.PlatformLoggingMXBean public static synchronized LoggingMXBean getLoggingMXBean() { if (loggingMXBean == null) { loggingMXBean = new Logging(); } return loggingMXBean; } /** * A class that provides access to the java.beans.PropertyChangeListener * and java.beans.PropertyChangeEvent without creating a static dependency * on java.beans. This class can be removed once the addPropertyChangeListener * and removePropertyChangeListener methods are removed. */ private static class Beans { private static final Class propertyChangeListenerClass = getClass("java.beans.PropertyChangeListener"); private static final Class propertyChangeEventClass = getClass("java.beans.PropertyChangeEvent"); private static final Method propertyChangeMethod = getMethod(propertyChangeListenerClass, "propertyChange", propertyChangeEventClass); private static final Constructor propertyEventCtor = getConstructor(propertyChangeEventClass, Object.class, String.class, Object.class, Object.class); private static Class getClass(String name) { try { return Class.forName(name, true, Beans.class.getClassLoader()); } catch (ClassNotFoundException e) { return null; } } private static Constructor getConstructor(Class c, Class... types) { try { return (c == null) ? null : c.getDeclaredConstructor(types); } catch (NoSuchMethodException x) { throw new AssertionError(x); } } private static Method getMethod(Class c, String name, Class... types) { try { return (c == null) ? null : c.getMethod(name, types); } catch (NoSuchMethodException e) { throw new AssertionError(e); } } /** * Returns {@code true} if java.beans is present. */ static boolean isBeansPresent() { return propertyChangeListenerClass != null && propertyChangeEventClass != null; } /** * Returns a new PropertyChangeEvent with the given source, property * name, old and new values. */ static Object newPropertyChangeEvent(Object source, String prop, Object oldValue, Object newValue) { try { return propertyEventCtor.newInstance(source, prop, oldValue, newValue); } catch (InstantiationException | IllegalAccessException x) { throw new AssertionError(x); } catch (InvocationTargetException x) { Throwable cause = x.getCause(); if (cause instanceof Error) throw (Error)cause; if (cause instanceof RuntimeException) throw (RuntimeException)cause; throw new AssertionError(x); } } /** * Invokes the given PropertyChangeListener's propertyChange method * with the given event. */ static void invokePropertyChange(Object listener, Object ev) { try { propertyChangeMethod.invoke(listener, ev); } catch (IllegalAccessException x) { throw new AssertionError(x); } catch (InvocationTargetException x) { Throwable cause = x.getCause(); if (cause instanceof Error) throw (Error)cause; if (cause instanceof RuntimeException) throw (RuntimeException)cause; throw new AssertionError(x); } } } }