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*
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package java.util.logging;
import java.util.Objects;
import java.io.UnsupportedEncodingException;
import java.security.AccessController;
import java.security.PrivilegedAction;
/**
* A {@code Handler} object takes log messages from a {@code Logger} and
* exports them. It might for example, write them to a console
* or write them to a file, or send them to a network logging service,
* or forward them to an OS log, or whatever.
*
* A {@code Handler} can be disabled by doing a {@code setLevel(Level.OFF)}
* and can be re-enabled by doing a {@code setLevel} with an appropriate level.
*
* {@code Handler} classes typically use {@code LogManager} properties to set
* default values for the {@code Handler}'s {@code Filter}, {@code Formatter},
* and {@code Level}. See the specific documentation for each concrete
* {@code Handler} class.
*
*
* @since 1.4
*/
public abstract class Handler {
private static final int offValue = Level.OFF.intValue();
private final LogManager manager = LogManager.getLogManager();
// We're using volatile here to avoid synchronizing getters, which
// would prevent other threads from calling isLoggable()
// while publish() is executing.
// On the other hand, setters will be synchronized to exclude concurrent
// execution with more complex methods, such as StreamHandler.publish().
// We wouldn't want 'level' to be changed by another thread in the middle
// of the execution of a 'publish' call.
private volatile Filter filter;
private volatile Formatter formatter;
private volatile Level logLevel = Level.ALL;
private volatile ErrorManager errorManager = new ErrorManager();
private volatile String encoding;
/**
* Default constructor. The resulting {@code Handler} has a log
* level of {@code Level.ALL}, no {@code Formatter}, and no
* {@code Filter}. A default {@code ErrorManager} instance is installed
* as the {@code ErrorManager}.
*/
protected Handler() {
}
/**
* Package-private constructor for chaining from subclass constructors
* that wish to configure the handler with specific default and/or
* specified values.
*
* @param defaultLevel a default {@link Level} to configure if one is
* not found in LogManager configuration properties
* @param defaultFormatter a default {@link Formatter} to configure if one is
* not specified by {@code specifiedFormatter} parameter
* nor found in LogManager configuration properties
* @param specifiedFormatter if not null, this is the formatter to configure
*/
@SuppressWarnings("removal")
Handler(Level defaultLevel, Formatter defaultFormatter,
Formatter specifiedFormatter) {
LogManager manager = LogManager.getLogManager();
String cname = getClass().getName();
final Level level = manager.getLevelProperty(cname + ".level", defaultLevel);
final Filter filter = manager.getFilterProperty(cname + ".filter", null);
final Formatter formatter = specifiedFormatter == null
? manager.getFormatterProperty(cname + ".formatter", defaultFormatter)
: specifiedFormatter;
final String encoding = manager.getStringProperty(cname + ".encoding", null);
AccessController.doPrivileged(new PrivilegedAction() {
@Override
public Void run() {
setLevel(level);
setFilter(filter);
setFormatter(formatter);
try {
setEncoding(encoding);
} catch (Exception ex) {
try {
setEncoding(null);
} catch (Exception ex2) {
// doing a setEncoding with null should always work.
// assert false;
}
}
return null;
}
}, null, LogManager.controlPermission);
}
/**
* Publish a {@code LogRecord}.
*
* The logging request was made initially to a {@code Logger} object,
* which initialized the {@code LogRecord} and forwarded it here.
*
* The {@code Handler} is responsible for formatting the message, when and
* if necessary. The formatting should include localization.
*
* @param record description of the log event. A null record is
* silently ignored and is not published
*/
public abstract void publish(LogRecord record);
/**
* Flush any buffered output.
*/
public abstract void flush();
/**
* Close the {@code Handler} and free all associated resources.
*
* The close method will perform a {@code flush} and then close the
* {@code Handler}. After close has been called this {@code Handler}
* should no longer be used. Method calls may either be silently
* ignored or may throw runtime exceptions.
*
* @throws SecurityException if a security manager exists and if
* the caller does not have {@code LoggingPermission("control")}.
*/
public abstract void close() throws SecurityException;
/**
* Set a {@code Formatter}. This {@code Formatter} will be used
* to format {@code LogRecords} for this {@code Handler}.
*
* Some {@code Handlers} may not use {@code Formatters}, in
* which case the {@code Formatter} will be remembered, but not used.
*
* @param newFormatter the {@code Formatter} to use (may not be null)
* @throws SecurityException if a security manager exists and if
* the caller does not have {@code LoggingPermission("control")}.
*/
public synchronized void setFormatter(Formatter newFormatter) throws SecurityException {
checkPermission();
formatter = Objects.requireNonNull(newFormatter);
}
/**
* Return the {@code Formatter} for this {@code Handler}.
* @return the {@code Formatter} (may be null).
*/
public Formatter getFormatter() {
return formatter;
}
/**
* Set the character encoding used by this {@code Handler}.
*
* The encoding should be set before any {@code LogRecords} are written
* to the {@code Handler}.
*
* @param encoding The name of a supported character encoding.
* May be null, to indicate the default platform encoding.
* @throws SecurityException if a security manager exists and if
* the caller does not have {@code LoggingPermission("control")}.
* @throws UnsupportedEncodingException if the named encoding is
* not supported.
*/
public synchronized void setEncoding(String encoding)
throws SecurityException, java.io.UnsupportedEncodingException {
checkPermission();
if (encoding != null) {
try {
if(!java.nio.charset.Charset.isSupported(encoding)) {
throw new UnsupportedEncodingException(encoding);
}
} catch (java.nio.charset.IllegalCharsetNameException e) {
throw new UnsupportedEncodingException(encoding);
}
}
this.encoding = encoding;
}
/**
* Return the character encoding for this {@code Handler}.
*
* @return The encoding name. May be null, which indicates the
* default encoding should be used.
*/
public String getEncoding() {
return encoding;
}
/**
* Set a {@code Filter} to control output on this {@code Handler}.
*
* For each call of {@code publish} the {@code Handler} will call
* this {@code Filter} (if it is non-null) to check if the
* {@code LogRecord} should be published or discarded.
*
* @param newFilter a {@code Filter} object (may be null)
* @throws SecurityException if a security manager exists and if
* the caller does not have {@code LoggingPermission("control")}.
*/
public synchronized void setFilter(Filter newFilter) throws SecurityException {
checkPermission();
filter = newFilter;
}
/**
* Get the current {@code Filter} for this {@code Handler}.
*
* @return a {@code Filter} object (may be null)
*/
public Filter getFilter() {
return filter;
}
/**
* Define an ErrorManager for this Handler.
*
* The ErrorManager's "error" method will be invoked if any
* errors occur while using this Handler.
*
* @param em the new ErrorManager
* @throws SecurityException if a security manager exists and if
* the caller does not have {@code LoggingPermission("control")}.
*/
public synchronized void setErrorManager(ErrorManager em) {
checkPermission();
if (em == null) {
throw new NullPointerException();
}
errorManager = em;
}
/**
* Retrieves the ErrorManager for this Handler.
*
* @return the ErrorManager for this Handler
* @throws SecurityException if a security manager exists and if
* the caller does not have {@code LoggingPermission("control")}.
*/
public ErrorManager getErrorManager() {
checkPermission();
return errorManager;
}
/**
* Protected convenience method to report an error to this Handler's
* ErrorManager. Note that this method retrieves and uses the ErrorManager
* without doing a security check. It can therefore be used in
* environments where the caller may be non-privileged.
*
* @param msg a descriptive string (may be null)
* @param ex an exception (may be null)
* @param code an error code defined in ErrorManager
*/
protected void reportError(String msg, Exception ex, int code) {
try {
errorManager.error(msg, ex, code);
} catch (Exception ex2) {
System.err.println("Handler.reportError caught:");
ex2.printStackTrace();
}
}
/**
* Set the log level specifying which message levels will be
* logged by this {@code Handler}. Message levels lower than this
* value will be discarded.
*
* The intention is to allow developers to turn on voluminous
* logging, but to limit the messages that are sent to certain
* {@code Handlers}.
*
* @param newLevel the new value for the log level
* @throws SecurityException if a security manager exists and if
* the caller does not have {@code LoggingPermission("control")}.
*/
public synchronized void setLevel(Level newLevel) throws SecurityException {
if (newLevel == null) {
throw new NullPointerException();
}
checkPermission();
logLevel = newLevel;
}
/**
* Get the log level specifying which messages will be
* logged by this {@code Handler}. Message levels lower
* than this level will be discarded.
* @return the level of messages being logged.
*/
public Level getLevel() {
return logLevel;
}
/**
* Check if this {@code Handler} would actually log a given {@code LogRecord}.
*
* This method checks if the {@code LogRecord} has an appropriate
* {@code Level} and whether it satisfies any {@code Filter}. It also
* may make other {@code Handler} specific checks that might prevent a
* handler from logging the {@code LogRecord}. It will return false if
* the {@code LogRecord} is null.
*
* @param record a {@code LogRecord} (may be null).
* @return true if the {@code LogRecord} would be logged.
*
*/
public boolean isLoggable(LogRecord record) {
final int levelValue = getLevel().intValue();
if (record == null) return false;
if (record.getLevel().intValue() < levelValue || levelValue == offValue) {
return false;
}
final Filter filter = getFilter();
if (filter == null) {
return true;
}
return filter.isLoggable(record);
}
// Package-private support method for security checks.
// We check that the caller has appropriate security privileges
// to update Handler state and if not throw a SecurityException.
void checkPermission() throws SecurityException {
manager.checkPermission();
}
}