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package sun.jvmstat.perfdata.monitor;

import sun.jvmstat.monitor.*;
import java.util.*;
import java.nio.*;
import java.io.*;
import java.net.*;
import java.util.regex.*;

The base classes for the concrete implementations of the HotSpot PerfData instrumentation buffer.
Author:Brian Doherty
See Also:
Since:1.5
/** * The base classes for the concrete implementations of the HotSpot * PerfData instrumentation buffer. * * @author Brian Doherty * @since 1.5 * @see AbstractPerfDataBuffer */
public abstract class PerfDataBufferImpl {
The buffer containing the instrumentation data.
/** * The buffer containing the instrumentation data. */
protected ByteBuffer buffer;
A Map of monitor objects found in the instrumentation buffer.
/** * A Map of monitor objects found in the instrumentation buffer. */
protected Map<String, Monitor> monitors;
The Local Java Virtual Machine Identifier for this buffer.
/** * The Local Java Virtual Machine Identifier for this buffer. */
protected int lvmid;
A Map of monitor object names to aliases as read in from the alias map file.
/** * A Map of monitor object names to aliases as read in from the alias map * file. */
protected Map<String, ArrayList<String>> aliasMap;
A cache of resolved monitor aliases.
/** * A cache of resolved monitor aliases. */
protected Map<String, Monitor> aliasCache;
Constructor.
Params:
  • buffer – the ByteBuffer containing the instrumentation data.
  • lvmid – the Local Java Virtual Machine Identifier for this instrumentation buffer.
/** * Constructor. * * @param buffer the ByteBuffer containing the instrumentation data. * @param lvmid the Local Java Virtual Machine Identifier for this * instrumentation buffer. */
protected PerfDataBufferImpl(ByteBuffer buffer, int lvmid) { this.buffer = buffer; this.lvmid = lvmid; this.monitors = new TreeMap<>(); this.aliasMap = new HashMap<>(); this.aliasCache = new HashMap<>(); }
Get the Local Java Virtual Machine Identifier, or lvmid for the target JVM associated with this instrumentation buffer.
Returns:int - the lvmid
/** * Get the Local Java Virtual Machine Identifier, or <em>lvmid</em> * for the target JVM associated with this instrumentation buffer. * * @return int - the lvmid */
public int getLocalVmId() { return lvmid; }
Get a copy of the raw instrumentation data. This method is used to get a copy of the current bytes in the instrumentation buffer. It is generally used for transporting those bytes over the network.
Returns:byte[] - a copy of the bytes in the instrumentation buffer.
/** * Get a copy of the raw instrumentation data. * This method is used to get a copy of the current bytes in the * instrumentation buffer. It is generally used for transporting * those bytes over the network. * * @return byte[] - a copy of the bytes in the instrumentation buffer. */
public byte[] getBytes() { ByteBuffer bb = null; synchronized (this) { /* * this operation is potentially time consuming, and the result * is unused when the getBytes() interface is used. However, the * call is necessary in order to synchronize this monitoring * client with the target jvm, which assures that the receiver * of the byte[] gets an image that is initialized to a usable * state. Otherwise, they might only get a snapshot of an * empty instrumentation buffer immediately after it was created. */ try { if (monitors.isEmpty()) { buildMonitorMap(monitors); } } catch (MonitorException e) { /* * just ignore this here and let the receiver of the * byte[] detect and handle the problem. */ } bb = buffer.duplicate(); } bb.rewind(); byte[] bytes = new byte[bb.limit()]; bb.get(bytes); return bytes; }
Get the capacity of the instrumentation buffer.
Returns:int - the capacity, or size, of the instrumentation buffer.
/** * Get the capacity of the instrumentation buffer. * * @return int - the capacity, or size, of the instrumentation buffer. */
public int getCapacity() { return buffer.capacity(); }
Get the ByteBuffer containing the instrumentation data.
Returns:ByteBuffer - a ByteBuffer object that refers to the instrumentation data.
/** * Get the ByteBuffer containing the instrumentation data. * * @return ByteBuffer - a ByteBuffer object that refers to the * instrumentation data. */
ByteBuffer getByteBuffer() { // receiver is responsible for assuring that the buffer's state // is that of an initialized target. return buffer; }
Build the alias mapping. Uses the default alias map file unless the sun.jvmstat.perfdata.aliasmap file indicates some other file as the source.
/** * Build the alias mapping. Uses the default alias map file unless * the sun.jvmstat.perfdata.aliasmap file indicates some other * file as the source. */
@SuppressWarnings("deprecation") private void buildAliasMap() { assert Thread.holdsLock(this); URL aliasURL = null; String filename = System.getProperty("sun.jvmstat.perfdata.aliasmap"); if (filename != null) { File f = new File(filename); try { aliasURL = f.toURL(); } catch (MalformedURLException e) { throw new IllegalArgumentException(e); } } else { aliasURL = getClass().getResource( "/sun/jvmstat/perfdata/resources/aliasmap"); } assert aliasURL != null; AliasFileParser aliasParser = new AliasFileParser(aliasURL); try { aliasParser.parse(aliasMap); } catch (IOException e) { System.err.println("Error processing " + filename + ": " + e.getMessage()); } catch (SyntaxException e) { System.err.println("Syntax error parsing " + filename + ": " + e.getMessage()); } }
Find the Monitor object for the named counter by using one of its aliases.
/** * Find the Monitor object for the named counter by using one of its * aliases. */
protected Monitor findByAlias(String name) { assert Thread.holdsLock(this); Monitor m = aliasCache.get(name); if (m == null) { ArrayList<String> al = aliasMap.get(name); if (al != null) { for (Iterator<String> i = al.iterator(); i.hasNext() && m == null; ) { String alias = i.next(); m = monitors.get(alias); } } } return m; }
Find a named Instrumentation object. This method will look for the named instrumentation object in the instrumentation exported by this Java Virtual Machine. If an instrumentation object with the given name exists, a Monitor interface to that object will be return. Otherwise, the method returns null. The method will map requests for instrumention objects using old names to their current names, if applicable.
Params:
  • name – the name of the Instrumentation object to find.
Throws:
  • MonitorException – Thrown if an error occurs while communicating with the target Java Virtual Machine.
Returns:Monitor - the Monitor object that can be used to monitor the named instrumentation object, or null if the named object doesn't exist.
/** * Find a named Instrumentation object. * * This method will look for the named instrumentation object in the * instrumentation exported by this Java Virtual Machine. If an * instrumentation object with the given name exists, a Monitor interface * to that object will be return. Otherwise, the method returns * {@code null}. The method will map requests for instrumention objects * using old names to their current names, if applicable. * * * * @param name the name of the Instrumentation object to find. * @return Monitor - the {@link Monitor} object that can be used to * monitor the named instrumentation object, or * {@code null} if the named object doesn't exist. * @throws MonitorException Thrown if an error occurs while communicating * with the target Java Virtual Machine. */
public Monitor findByName(String name) throws MonitorException { Monitor m = null; synchronized (this) { if (monitors.isEmpty()) { buildMonitorMap(monitors); buildAliasMap(); } // look for the requested monitor m = monitors.get(name); if (m == null) { // not found - load any new monitors, and try again. getNewMonitors(monitors); m = monitors.get(name); } if (m == null) { // still not found, look for aliases m = findByAlias(name); } } return m; }
Find all Instrumentation objects with names matching the given pattern. This method returns a List of Monitor objects such that the name of each object matches the given pattern.
Params:
  • patternString – a string containing a pattern as described in Pattern.
Throws:
  • MonitorException – Thrown if an error occurs while communicating with the target Java Virtual Machine.
See Also:
Returns:List<Monitor> - a List of Monitor objects that can be used to monitor the instrumentation objects whose names match the given pattern. If no instrumentation objects have` names matching the given pattern, then an empty List is returned.
/** * Find all Instrumentation objects with names matching the given pattern. * * This method returns a {@link List} of Monitor objects such that * the name of each object matches the given pattern. * * @param patternString a string containing a pattern as described in * {@link java.util.regex.Pattern}. * @return {@code List<Monitor>} - a List of {@link Monitor} * objects that can be used to * monitor the instrumentation objects whose names match * the given pattern. If no instrumentation objects have` * names matching the given pattern, then an empty List * is returned. * @throws MonitorException Thrown if an error occurs while communicating * with the target Java Virtual Machine. * @see java.util.regex.Pattern */
public List<Monitor> findByPattern(String patternString) throws MonitorException, PatternSyntaxException { synchronized(this) { if (monitors.isEmpty()) { buildMonitorMap(monitors); } else { getNewMonitors(monitors); } } Pattern pattern = Pattern.compile(patternString); Matcher matcher = pattern.matcher(""); List<Monitor> matches = new ArrayList<>(); Set<Map.Entry<String,Monitor>> monitorSet = monitors.entrySet(); for (Iterator<Map.Entry<String, Monitor>> i = monitorSet.iterator(); i.hasNext(); /* empty */) { Map.Entry<String, Monitor> me = i.next(); String name = me.getKey(); Monitor m = me.getValue(); // apply pattern to monitor item name matcher.reset(name); // if the pattern matches, then add monitor to list if (matcher.lookingAt()) { matches.add(me.getValue()); } } return matches; }
Get a list of the inserted and removed monitors since last called.
Throws:
  • MonitorException – Thrown if communications errors occur while communicating with the target.
Returns:MonitorStatus - the status of available Monitors for the target Java Virtual Machine.
/** * Get a list of the inserted and removed monitors since last called. * * @return MonitorStatus - the status of available Monitors for the * target Java Virtual Machine. * @throws MonitorException Thrown if communications errors occur * while communicating with the target. */
public MonitorStatus getMonitorStatus() throws MonitorException { synchronized(this) { if (monitors.isEmpty()) { buildMonitorMap(monitors); } return getMonitorStatus(monitors); } } // PerfDataBuffer implementation specific classes
get the list of inserted and removed monitors since last called.
Params:
  • m – the map of Monitors.
Throws:
  • MonitorException – Thrown if communications errors occur while communicating with the target.
/** * get the list of inserted and removed monitors since last called. * * @param m the map of Monitors. * @throws MonitorException Thrown if communications errors occur * while communicating with the target. */
protected abstract MonitorStatus getMonitorStatus(Map<String, Monitor> m) throws MonitorException;
build the map of Monitor objects.
Params:
  • m – the map of Monitors.
Throws:
  • MonitorException – Thrown if communications errors occur while communicating with the target.
/** * build the map of Monitor objects. * * @param m the map of Monitors. * @throws MonitorException Thrown if communications errors occur * while communicating with the target. */
protected abstract void buildMonitorMap(Map<String, Monitor> m) throws MonitorException;
get the new Monitor objects from the Map of Monitor objects.
Params:
  • m – the map of Monitors.
Throws:
  • MonitorException – Thrown if communications errors occur while communicating with the target.
/** * get the new Monitor objects from the Map of Monitor objects. * * @param m the map of Monitors. * @throws MonitorException Thrown if communications errors occur * while communicating with the target. */
protected abstract void getNewMonitors(Map<String, Monitor> m) throws MonitorException; }