https://openjdk.java.net/ 
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 * Copyright (c) 2005, 2014, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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 * 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
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 *
 * 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).
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 * 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,
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 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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package com.sun.tools.attach;

import com.sun.tools.attach.spi.AttachProvider;
import java.util.ArrayList;
import java.util.List;
import java.util.Properties;
import java.io.IOException;



A Java virtual machine.

 A VirtualMachine represents a Java virtual machine to which this Java virtual machine has attached. The Java virtual machine to which it is attached is sometimes called the target virtual machine, or target VM.
An application (typically a tool such as a managemet console or profiler) uses a
VirtualMachine to load an agent into the target VM. For example, a profiler tool
written in the Java Language might attach to a running application and load its
profiler agent to profile the running application. 


 A VirtualMachine is obtained by invoking the attach method with an identifier that identifies the target virtual machine. The identifier is implementation-dependent but is typically the process identifier (or pid) in environments where each Java virtual machine runs in its own operating system process. Alternatively, a VirtualMachine instance is obtained by invoking the attach method with a VirtualMachineDescriptor obtained from the list of virtual machine descriptors returned by the list method. Once a reference to a virtual machine is obtained, the loadAgent, loadAgentLibrary, and loadAgentPath methods are used to load agents into target virtual machine. The loadAgent method is used to load agents that are written in the Java Language and deployed in a JAR file. (See instrument for a detailed description on how these agents are loaded and started). The loadAgentLibrary and loadAgentPath methods are used to load agents that are deployed either in a dynamic library or statically linked into the VM and make use of the JVM Tools Interface.



 In addition to loading agents a VirtualMachine provides read access to the system properties in the target VM. This can be useful in some environments where properties such as java.home, os.name, or os.arch are used to construct the path to agent that will be loaded into the target VM. 
 The following example demonstrates how VirtualMachine may be used:


     // attach to target VM
     VirtualMachine vm = VirtualMachine.attach("2177");
     // start management agent
     Properties props = new Properties();
     props.put("com.sun.management.jmxremote.port", "5000");
     vm.startManagementAgent(props);
     // detach
     vm.detach();



 In this example we attach to a Java virtual machine that is identified by the process identifier 2177. Then the JMX management agent is started in the target process using the supplied arguments. Finally, the client detaches from the target VM. 


 A VirtualMachine is safe for use by multiple concurrent threads. 


Since:1.6
/**
 * A Java virtual machine.
 *
 * <p> A {@code VirtualMachine} represents a Java virtual machine to which this
 * Java virtual machine has attached. The Java virtual machine to which it is
 * attached is sometimes called the <i>target virtual machine</i>, or <i>target VM</i>.
 * An application (typically a tool such as a managemet console or profiler) uses a
 * VirtualMachine to load an agent into the target VM. For example, a profiler tool
 * written in the Java Language might attach to a running application and load its
 * profiler agent to profile the running application. </p>
 *
 * <p> A VirtualMachine is obtained by invoking the {@link #attach(String) attach} method
 * with an identifier that identifies the target virtual machine. The identifier is
 * implementation-dependent but is typically the process identifier (or pid) in
 * environments where each Java virtual machine runs in its own operating system process.
 * Alternatively, a {@code VirtualMachine} instance is obtained by invoking the
 * {@link #attach(VirtualMachineDescriptor) attach} method with a {@link
 * com.sun.tools.attach.VirtualMachineDescriptor VirtualMachineDescriptor} obtained
 * from the list of virtual machine descriptors returned by the {@link #list list} method.
 * Once a reference to a virtual machine is obtained, the {@link #loadAgent loadAgent},
 * {@link #loadAgentLibrary loadAgentLibrary}, and {@link #loadAgentPath loadAgentPath}
 * methods are used to load agents into target virtual machine. The {@link
 * #loadAgent loadAgent} method is used to load agents that are written in the Java
 * Language and deployed in a {@link java.util.jar.JarFile JAR file}. (See
 * {@link java.lang.instrument} for a detailed description on how these agents
 * are loaded and started). The {@link #loadAgentLibrary loadAgentLibrary} and
 * {@link #loadAgentPath loadAgentPath} methods are used to load agents that
 * are deployed either in a dynamic library or statically linked into the VM and
 * make use of the <a href="{@docRoot}/../specs/jvmti.html">JVM Tools Interface</a>.
 * </p>
 *
 * <p> In addition to loading agents a VirtualMachine provides read access to the
 * {@link java.lang.System#getProperties() system properties} in the target VM.
 * This can be useful in some environments where properties such as
 * {@code java.home}, {@code os.name}, or {@code os.arch} are
 * used to construct the path to agent that will be loaded into the target VM.
 *
 * <p> The following example demonstrates how VirtualMachine may be used:</p>
 *
 * <pre>
 *
 *      // attach to target VM
 *      VirtualMachine vm = VirtualMachine.attach("2177");
 *
 *      // start management agent
 *      Properties props = new Properties();
 *      props.put("com.sun.management.jmxremote.port", "5000");
 *      vm.startManagementAgent(props);
 *
 *      // detach
 *      vm.detach();
 *
 * </pre>
 *
 * <p> In this example we attach to a Java virtual machine that is identified by
 * the process identifier {@code 2177}. Then the JMX management agent is
 * started in the target process using the supplied arguments. Finally, the
 * client detaches from the target VM. </p>
 *
 * <p> A VirtualMachine is safe for use by multiple concurrent threads. </p>
 *
 * @since 1.6
 */

public abstract class VirtualMachine {
    private AttachProvider provider;
    private String id;
    private volatile int hash;        // 0 => not computed

    
Initializes a new instance of this class.

Params:
  • provider – 
         The attach provider creating this class.
  • id – 
         The abstract identifier that identifies the Java virtual machine.
Throws:
/**
     * Initializes a new instance of this class.
     *
     * @param   provider
     *          The attach provider creating this class.
     * @param   id
     *          The abstract identifier that identifies the Java virtual machine.
     *
     * @throws  NullPointerException
     *          If {@code provider} or {@code id} is {@code null}.
     */
    protected VirtualMachine(AttachProvider provider, String id) {
        if (provider == null) {
            throw new NullPointerException("provider cannot be null");
        }
        if (id == null) {
            throw new NullPointerException("id cannot be null");
        }
        this.provider = provider;
        this.id = id;
    }

    
Return a list of Java virtual machines.

 This method returns a list of Java VirtualMachineDescriptor elements. The list is an aggregation of the virtual machine descriptor lists obtained by invoking the 
listVirtualMachines method of all installed attach providers. If there are no Java virtual machines known to any provider then an empty list is returned. 
Returns: The list of virtual machine descriptors.
/**
     * Return a list of Java virtual machines.
     *
     * <p> This method returns a list of Java {@link
     * com.sun.tools.attach.VirtualMachineDescriptor} elements.
     * The list is an aggregation of the virtual machine
     * descriptor lists obtained by invoking the {@link
     * com.sun.tools.attach.spi.AttachProvider#listVirtualMachines
     * listVirtualMachines} method of all installed
     * {@link com.sun.tools.attach.spi.AttachProvider attach providers}.
     * If there are no Java virtual machines known to any provider
     * then an empty list is returned.
     *
     * @return  The list of virtual machine descriptors.
     */
    public static List<VirtualMachineDescriptor> list() {
        ArrayList<VirtualMachineDescriptor> l =
            new ArrayList<VirtualMachineDescriptor>();
        List<AttachProvider> providers = AttachProvider.providers();
        for (AttachProvider provider: providers) {
            l.addAll(provider.listVirtualMachines());
        }
        return l;
    }

    
Attaches to a Java virtual machine.

 This method obtains the list of attach providers by invoking the 
AttachProvider.providers() method. It then iterates overs the list and invokes each provider's 
attachVirtualMachine method in turn. If a provider successfully attaches then the iteration terminates, and the VirtualMachine created by the provider that successfully attached is returned by this method. If the attachVirtualMachine method of all providers throws AttachNotSupportedException then this method also throws AttachNotSupportedException. This means that AttachNotSupportedException is thrown when the identifier provided to this method is invalid, or the identifier corresponds to a Java virtual machine that does not exist, or none of the providers can attach to it. This exception is also thrown if 
AttachProvider.providers() returns an empty list. 


Params:
  • id – 
         The abstract identifier that identifies the Java virtual machine.
Throws:
Returns: A VirtualMachine representing the target VM.
/**
     * Attaches to a Java virtual machine.
     *
     * <p> This method obtains the list of attach providers by invoking the
     * {@link com.sun.tools.attach.spi.AttachProvider#providers()
     * AttachProvider.providers()} method. It then iterates overs the list
     * and invokes each provider's {@link
     * com.sun.tools.attach.spi.AttachProvider#attachVirtualMachine(java.lang.String)
     * attachVirtualMachine} method in turn. If a provider successfully
     * attaches then the iteration terminates, and the VirtualMachine created
     * by the provider that successfully attached is returned by this method.
     * If the {@code attachVirtualMachine} method of all providers throws
     * {@link com.sun.tools.attach.AttachNotSupportedException AttachNotSupportedException}
     * then this method also throws {@code AttachNotSupportedException}.
     * This means that {@code AttachNotSupportedException} is thrown when
     * the identifier provided to this method is invalid, or the identifier
     * corresponds to a Java virtual machine that does not exist, or none
     * of the providers can attach to it. This exception is also thrown if
     * {@link com.sun.tools.attach.spi.AttachProvider#providers()
     * AttachProvider.providers()} returns an empty list. </p>
     *
     * @param   id
     *          The abstract identifier that identifies the Java virtual machine.
     *
     * @return  A VirtualMachine representing the target VM.
     *
     * @throws  SecurityException
     *          If a security manager has been installed and it denies
     *          {@link com.sun.tools.attach.AttachPermission AttachPermission}
     *          {@code ("attachVirtualMachine")}, or another permission
     *          required by the implementation.
     *
     * @throws  AttachNotSupportedException
     *          If the {@code attachVirtualmachine} method of all installed
     *          providers throws {@code AttachNotSupportedException}, or
     *          there aren't any providers installed.
     *
     * @throws  IOException
     *          If an I/O error occurs
     *
     * @throws  NullPointerException
     *          If {@code id} is {@code null}.
     */
    public static VirtualMachine attach(String id)
        throws AttachNotSupportedException, IOException
    {
        if (id == null) {
            throw new NullPointerException("id cannot be null");
        }
        List<AttachProvider> providers = AttachProvider.providers();
        if (providers.size() == 0) {
            throw new AttachNotSupportedException("no providers installed");
        }
        AttachNotSupportedException lastExc = null;
        for (AttachProvider provider: providers) {
            try {
                return provider.attachVirtualMachine(id);
            } catch (AttachNotSupportedException x) {
                lastExc = x;
            }
        }
        throw lastExc;
    }

    
Attaches to a Java virtual machine.

 This method first invokes the provider() method of the given virtual machine descriptor to obtain the attach provider. It then invokes the attach provider's 
attachVirtualMachine to attach to the target VM. 
Params:
  • vmd – 
         The virtual machine descriptor.
Throws:
Returns: A VirtualMachine representing the target VM.
/**
     * Attaches to a Java virtual machine.
     *
     * <p> This method first invokes the {@link
     * com.sun.tools.attach.VirtualMachineDescriptor#provider() provider()} method
     * of the given virtual machine descriptor to obtain the attach provider. It
     * then invokes the attach provider's {@link
     * com.sun.tools.attach.spi.AttachProvider#attachVirtualMachine(VirtualMachineDescriptor)
     * attachVirtualMachine} to attach to the target VM.
     *
     * @param   vmd
     *          The virtual machine descriptor.
     *
     * @return  A VirtualMachine representing the target VM.
     *
     * @throws  SecurityException
     *          If a security manager has been installed and it denies
     *          {@link com.sun.tools.attach.AttachPermission AttachPermission}
     *          {@code ("attachVirtualMachine")}, or another permission
     *          required by the implementation.
     *
     * @throws  AttachNotSupportedException
     *          If the attach provider's {@code attachVirtualmachine}
     *          throws {@code AttachNotSupportedException}.
     *
     * @throws  IOException
     *          If an I/O error occurs
     *
     * @throws  NullPointerException
     *          If {@code vmd} is {@code null}.
     */
    public static VirtualMachine attach(VirtualMachineDescriptor vmd)
        throws AttachNotSupportedException, IOException
    {
        return vmd.provider().attachVirtualMachine(vmd);
    }

    
Detach from the virtual machine.

 After detaching from the virtual machine, any further attempt to invoke operations on that virtual machine will cause an 
IOException to be thrown. If an operation (such as 
loadAgent for example) is in progress when this method is invoked then the behaviour is implementation dependent. In other words, it is implementation specific if the operation completes or throws IOException. 
 If already detached from the virtual machine then invoking this
method has no effect. 


Throws:
/**
     * Detach from the virtual machine.
     *
     * <p> After detaching from the virtual machine, any further attempt to invoke
     * operations on that virtual machine will cause an {@link java.io.IOException
     * IOException} to be thrown. If an operation (such as {@link #loadAgent
     * loadAgent} for example) is in progress when this method is invoked then
     * the behaviour is implementation dependent. In other words, it is
     * implementation specific if the operation completes or throws
     * {@code IOException}.
     *
     * <p> If already detached from the virtual machine then invoking this
     * method has no effect. </p>
     *
     * @throws  IOException
     *          If an I/O error occurs
     */
    public abstract void detach() throws IOException;

    
Returns the provider that created this virtual machine.

Returns: The provider that created this virtual machine.
/**
     * Returns the provider that created this virtual machine.
     *
     * @return  The provider that created this virtual machine.
     */
    public final AttachProvider provider() {
        return provider;
    }

    
Returns the identifier for this Java virtual machine.

Returns: The identifier for this Java virtual machine.
/**
     * Returns the identifier for this Java virtual machine.
     *
     * @return  The identifier for this Java virtual machine.
     */
    public final String id() {
        return id;
    }

    
Loads an agent library.

 A JVM TI
client is called an agent. It is developed in a native language. A JVM TI agent is deployed in a platform specific manner but it is typically the platform equivalent of a dynamic library. Alternatively, it may be statically linked into the VM. This method causes the given agent library to be loaded into the target VM (if not already loaded or if not statically linked into the VM). It then causes the target VM to invoke the Agent_OnAttach function or, for a statically linked agent named 'L', the Agent_OnAttach_L function as specified in the JVM Tools Interface specification. Note that the Agent_OnAttach[_L] function is invoked even if the agent library was loaded prior to invoking this method. 
 The agent library provided is the name of the agent library. It is interpreted in the target virtual machine in an implementation-dependent manner. Typically an implementation will expand the library name into an operating system specific file name. For example, on UNIX systems, the name L might be expanded to libL.so, and located using the search path specified by the LD_LIBRARY_PATH environment variable. If the agent named 'L' is statically linked into the VM then the VM must export a function named Agent_OnAttach_L.


 If the Agent_OnAttach[_L] function in the agent library returns an error then an AgentInitializationException is thrown. The return value from the Agent_OnAttach[_L] can then be obtained by invoking the returnValue method on the exception. 


Params:
  • agentLibrary – 
         The name of the agent library.
  • options –  The options to provide to the Agent_OnAttach[_L] function (can be null).
Throws:
See Also:
/**
     * Loads an agent library.
     *
     * <p> A <a href="{@docRoot}/../specs/jvmti.html">JVM TI</a>
     * client is called an <i>agent</i>. It is developed in a native language.
     * A JVM TI agent is deployed in a platform specific manner but it is typically the
     * platform equivalent of a dynamic library. Alternatively, it may be statically linked into the VM.
     * This method causes the given agent library to be loaded into the target
     * VM (if not already loaded or if not statically linked into the VM).
     * It then causes the target VM to invoke the {@code Agent_OnAttach} function
     * or, for a statically linked agent named 'L', the {@code Agent_OnAttach_L} function
     * as specified in the
     * <a href="{@docRoot}/../specs/jvmti.html">JVM Tools Interface</a> specification.
     * Note that the {@code Agent_OnAttach[_L]}
     * function is invoked even if the agent library was loaded prior to invoking
     * this method.
     *
     * <p> The agent library provided is the name of the agent library. It is interpreted
     * in the target virtual machine in an implementation-dependent manner. Typically an
     * implementation will expand the library name into an operating system specific file
     * name. For example, on UNIX systems, the name {@code L} might be expanded to
     * {@code libL.so}, and located using the search path specified by the
     * {@code LD_LIBRARY_PATH} environment variable. If the agent named 'L' is
     * statically linked into the VM then the VM must export a function named
     * {@code Agent_OnAttach_L}.</p>
     *
     * <p> If the {@code Agent_OnAttach[_L]} function in the agent library returns
     * an error then an {@link com.sun.tools.attach.AgentInitializationException} is
     * thrown. The return value from the {@code Agent_OnAttach[_L]} can then be
     * obtained by invoking the {@link
     * com.sun.tools.attach.AgentInitializationException#returnValue() returnValue}
     * method on the exception. </p>
     *
     * @param   agentLibrary
     *          The name of the agent library.
     *
     * @param   options
     *          The options to provide to the {@code Agent_OnAttach[_L]}
     *          function (can be {@code null}).
     *
     * @throws  AgentLoadException
     *          If the agent library does not exist, the agent library is not
     *          statically linked with the VM, or the agent library cannot be
     *          loaded for another reason.
     *
     * @throws  AgentInitializationException
     *          If the {@code Agent_OnAttach[_L]} function returns an error.
     *
     * @throws  IOException
     *          If an I/O error occurs
     *
     * @throws  NullPointerException
     *          If {@code agentLibrary} is {@code null}.
     *
     * @see     com.sun.tools.attach.AgentInitializationException#returnValue()
     */
    public abstract void loadAgentLibrary(String agentLibrary, String options)
        throws AgentLoadException, AgentInitializationException, IOException;

    
Loads an agent library.

 This convenience method works as if by invoking:

 loadAgentLibrary(agentLibrary, null); 


Params:
  • agentLibrary – 
         The name of the agent library.
Throws:
/**
     * Loads an agent library.
     *
     * <p> This convenience method works as if by invoking:
     *
     * <blockquote><code>
     * {@link #loadAgentLibrary(String, String) loadAgentLibrary}(agentLibrary,&nbsp;null);
     * </code></blockquote>
     *
     * @param   agentLibrary
     *          The name of the agent library.
     *
     * @throws  AgentLoadException
     *          If the agent library does not exist, the agent library is not
     *          statically linked with the VM, or the agent library cannot be
     *          loaded for another reason.
     *
     * @throws  AgentInitializationException
     *          If the {@code Agent_OnAttach[_L]} function returns an error.
     *
     * @throws  IOException
     *          If an I/O error occurs
     *
     * @throws  NullPointerException
     *          If {@code agentLibrary} is {@code null}.
     */
    public void loadAgentLibrary(String agentLibrary)
        throws AgentLoadException, AgentInitializationException, IOException
    {
        loadAgentLibrary(agentLibrary, null);
    }

    
Load a native agent library by full pathname.

 A JVM TI
client is called an agent. It is developed in a native language. A JVM TI agent is deployed in a platform specific manner but it is typically the platform equivalent of a dynamic library. Alternatively, the native library specified by the agentPath parameter may be statically linked with the VM. The parsing of the agentPath parameter into a statically linked library name is done in a platform specific manner in the VM. For example, in UNIX, an agentPath parameter of /a/b/libL.so would name a library 'L'. See the JVM TI Specification for more details. This method causes the given agent library to be loaded into the target VM (if not already loaded or if not statically linked into the VM). It then causes the target VM to invoke the Agent_OnAttach function or, for a statically linked agent named 'L', the Agent_OnAttach_L function as specified in the JVM Tools Interface specification. Note that the Agent_OnAttach[_L] function is invoked even if the agent library was loaded prior to invoking this method. 
 The agent library provided is the absolute path from which to load the agent library. Unlike loadAgentLibrary, the library name is not expanded in the target virtual machine. 


 If the Agent_OnAttach[_L] function in the agent library returns an error then an AgentInitializationException is thrown. The return value from the Agent_OnAttach[_L] can then be obtained by invoking the returnValue method on the exception. 


Params:
  • agentPath – 
         The full path of the agent library.
  • options –  The options to provide to the Agent_OnAttach[_L] function (can be null).
Throws:
See Also:
/**
     * Load a native agent library by full pathname.
     *
     * <p> A <a href="{@docRoot}/../specs/jvmti.html">JVM TI</a>
     * client is called an <i>agent</i>. It is developed in a native language.
     * A JVM TI agent is deployed in a platform specific manner but it is typically the
     * platform equivalent of a dynamic library. Alternatively, the native
     * library specified by the agentPath parameter may be statically
     * linked with the VM. The parsing of the agentPath parameter into
     * a statically linked library name is done in a platform
     * specific manner in the VM. For example, in UNIX, an agentPath parameter
     * of {@code /a/b/libL.so} would name a library 'L'.
     *
     * See the JVM TI Specification for more details.
     *
     * This method causes the given agent library to be loaded into the target
     * VM (if not already loaded or if not statically linked into the VM).
     * It then causes the target VM to invoke the {@code Agent_OnAttach}
     * function or, for a statically linked agent named 'L', the
     * {@code Agent_OnAttach_L} function as specified in the
     * <a href="{@docRoot}/../specs/jvmti.html">JVM Tools Interface</a> specification.
     * Note that the {@code Agent_OnAttach[_L]}
     * function is invoked even if the agent library was loaded prior to invoking
     * this method.
     *
     * <p> The agent library provided is the absolute path from which to load the
     * agent library. Unlike {@link #loadAgentLibrary loadAgentLibrary}, the library name
     * is not expanded in the target virtual machine. </p>
     *
     * <p> If the {@code Agent_OnAttach[_L]} function in the agent library returns
     * an error then an {@link com.sun.tools.attach.AgentInitializationException} is
     * thrown. The return value from the {@code Agent_OnAttach[_L]} can then be
     * obtained by invoking the {@link
     * com.sun.tools.attach.AgentInitializationException#returnValue() returnValue}
     * method on the exception. </p>
     *
     * @param   agentPath
     *          The full path of the agent library.
     *
     * @param   options
     *          The options to provide to the {@code Agent_OnAttach[_L]}
     *          function (can be {@code null}).
     *
     * @throws  AgentLoadException
     *          If the agent library does not exist, the agent library is not
     *          statically linked with the VM, or the agent library cannot be
     *          loaded for another reason.
     *
     * @throws  AgentInitializationException
     *          If the {@code Agent_OnAttach[_L]} function returns an error.
     *
     * @throws  IOException
     *          If an I/O error occurs
     *
     * @throws  NullPointerException
     *          If {@code agentPath} is {@code null}.
     *
     * @see     com.sun.tools.attach.AgentInitializationException#returnValue()
     */
    public abstract void loadAgentPath(String agentPath, String options)
        throws AgentLoadException, AgentInitializationException, IOException;

    
Load a native agent library by full pathname.

 This convenience method works as if by invoking:

 loadAgentPath(agentLibrary, null); 


Params:
  • agentPath – 
         The full path to the agent library.
Throws:
/**
     * Load a native agent library by full pathname.
     *
     * <p> This convenience method works as if by invoking:
     *
     * <blockquote><code>
     * {@link #loadAgentPath(String, String) loadAgentPath}(agentLibrary,&nbsp;null);
     * </code></blockquote>
     *
     * @param   agentPath
     *          The full path to the agent library.
     *
     * @throws  AgentLoadException
     *          If the agent library does not exist, the agent library is not
     *          statically linked with the VM, or the agent library cannot be
     *          loaded for another reason.
     *
     * @throws  AgentInitializationException
     *          If the {@code Agent_OnAttach[_L]} function returns an error.
     *
     * @throws  IOException
     *          If an I/O error occurs
     *
     * @throws  NullPointerException
     *          If {@code agentPath} is {@code null}.
     */
    public void loadAgentPath(String agentPath)
       throws AgentLoadException, AgentInitializationException, IOException
    {
        loadAgentPath(agentPath, null);
    }


   
Loads an agent.

 The agent provided to this method is a path name to a JAR file on the file system of the target virtual machine. This path is passed to the target virtual machine where it is interpreted. The target virtual machine attempts to start the agent as specified by the instrument specification. That is, the specified JAR file is added to the system class path (of the target virtual machine), and the agentmain method of the agent class, specified by the Agent-Class attribute in the JAR manifest, is invoked. This method completes when the agentmain method completes. 
Params:
  • agent – 
         Path to the JAR file containing the agent.
  • options –  The options to provide to the agent's agentmain method (can be null).
Throws:
/**
     * Loads an agent.
     *
     * <p> The agent provided to this method is a path name to a JAR file on the file
     * system of the target virtual machine. This path is passed to the target virtual
     * machine where it is interpreted. The target virtual machine attempts to start
     * the agent as specified by the {@link java.lang.instrument} specification.
     * That is, the specified JAR file is added to the system class path (of the target
     * virtual machine), and the {@code agentmain} method of the agent class, specified
     * by the {@code Agent-Class} attribute in the JAR manifest, is invoked. This
     * method completes when the {@code agentmain} method completes.
     *
     * @param   agent
     *          Path to the JAR file containing the agent.
     *
     * @param   options
     *          The options to provide to the agent's {@code agentmain}
     *          method (can be {@code null}).
     *
     * @throws  AgentLoadException
     *          If the agent does not exist, or cannot be started in the manner
     *          specified in the {@link java.lang.instrument} specification.
     *
     * @throws  AgentInitializationException
     *          If the {@code agentmain} throws an exception
     *
     * @throws  IOException
     *          If an I/O error occurs
     *
     * @throws  NullPointerException
     *          If {@code agent} is {@code null}.
     */
    public abstract void loadAgent(String agent, String options)
        throws AgentLoadException, AgentInitializationException, IOException;

    
Loads an agent.

 This convenience method works as if by invoking:

 loadAgent(agent, null); 


Params:
  • agent – 
         Path to the JAR file containing the agent.
Throws:
/**
     * Loads an agent.
     *
     * <p> This convenience method works as if by invoking:
     *
     * <blockquote><code>
     * {@link #loadAgent(String, String) loadAgent}(agent,&nbsp;null);
     * </code></blockquote>
     *
     * @param   agent
     *          Path to the JAR file containing the agent.
     *
     * @throws  AgentLoadException
     *          If the agent does not exist, or cannot be started in the manner
     *          specified in the {@link java.lang.instrument} specification.
     *
     * @throws  AgentInitializationException
     *          If the {@code agentmain} throws an exception
     *
     * @throws  IOException
     *          If an I/O error occurs
     *
     * @throws  NullPointerException
     *          If {@code agent} is {@code null}.
     */
    public void loadAgent(String agent)
        throws AgentLoadException, AgentInitializationException, IOException
    {
        loadAgent(agent, null);
    }

    
Returns the current system properties in the target virtual machine.

 This method returns the system properties in the target virtual machine. Properties whose key or value is not a String are omitted. The method is approximately equivalent to the invocation of the method System.getProperties in the target virtual machine except that properties with a key or value that is not a String are not included. 
 This method is typically used to decide which agent to load into the target virtual machine with loadAgent, or loadAgentLibrary. For example, the java.home or user.dir properties might be use to create the path to the agent library or JAR file. 
Throws:
  • AttachOperationFailedException –  If the target virtual machine is unable to complete the attach operation. A more specific error message will be given by Throwable.getMessage().
  • IOException – 
         If an I/O error occurs, a communication error for example,
         that cannot be identified as an error to indicate that the
         operation failed in the target VM.
See Also:
Returns: The system properties
/**
     * Returns the current system properties in the target virtual machine.
     *
     * <p> This method returns the system properties in the target virtual
     * machine. Properties whose key or value is not a {@code String} are
     * omitted. The method is approximately equivalent to the invocation of the
     * method {@link java.lang.System#getProperties System.getProperties}
     * in the target virtual machine except that properties with a key or
     * value that is not a {@code String} are not included.
     *
     * <p> This method is typically used to decide which agent to load into
     * the target virtual machine with {@link #loadAgent loadAgent}, or
     * {@link #loadAgentLibrary loadAgentLibrary}. For example, the
     * {@code java.home} or {@code user.dir} properties might be
     * use to create the path to the agent library or JAR file.
     *
     * @return  The system properties
     *
     * @throws  AttachOperationFailedException
     *          If the target virtual machine is unable to complete the
     *          attach operation. A more specific error message will be
     *          given by {@link AttachOperationFailedException#getMessage()}.
     *
     * @throws  IOException
     *          If an I/O error occurs, a communication error for example,
     *          that cannot be identified as an error to indicate that the
     *          operation failed in the target VM.
     *
     * @see     java.lang.System#getProperties
     * @see     #loadAgentLibrary
     * @see     #loadAgent
     */
    public abstract Properties getSystemProperties() throws IOException;

    
Returns the current agent properties in the target virtual
machine.

 The target virtual machine can maintain a list of properties on
behalf of agents. The manner in which this is done, the names of the
properties, and the types of values that are allowed, is implementation
specific. Agent properties are typically used to store communication
end-points and other agent configuration details. For example, a debugger
agent might create an agent property for its transport address.

 This method returns the agent properties whose key and value is a String. Properties whose key or value is not a String are omitted. If there are no agent properties maintained in the target virtual machine then an empty property list is returned. 
Throws:
  • AttachOperationFailedException –  If the target virtual machine is unable to complete the attach operation. A more specific error message will be given by Throwable.getMessage().
  • IOException – 
              If an I/O error occurs, a communication error for example,
              that cannot be identified as an error to indicate that the
              operation failed in the target VM.
Returns:      The agent properties
/**
     * Returns the current <i>agent properties</i> in the target virtual
     * machine.
     *
     * <p> The target virtual machine can maintain a list of properties on
     * behalf of agents. The manner in which this is done, the names of the
     * properties, and the types of values that are allowed, is implementation
     * specific. Agent properties are typically used to store communication
     * end-points and other agent configuration details. For example, a debugger
     * agent might create an agent property for its transport address.
     *
     * <p> This method returns the agent properties whose key and value is a
     * {@code String}. Properties whose key or value is not a {@code String}
     * are omitted. If there are no agent properties maintained in the target
     * virtual machine then an empty property list is returned.
     *
     * @return       The agent properties
     *
     * @throws       AttachOperationFailedException
     *               If the target virtual machine is unable to complete the
     *               attach operation. A more specific error message will be
     *               given by {@link AttachOperationFailedException#getMessage()}.
     *
     * @throws       IOException
     *               If an I/O error occurs, a communication error for example,
     *               that cannot be identified as an error to indicate that the
     *               operation failed in the target VM.
     */
    public abstract Properties getAgentProperties() throws IOException;

    
Starts the JMX management agent in the target virtual machine.

 The configuration properties are the same as those specified on the command line when starting the JMX management agent. In the same way as on the command line, you need to specify at least the com.sun.management.jmxremote.port property. 
 See the online documentation for
{@extLink monitoring_and_management_using_jmx_technology
Monitoring and Management Using JMX Technology} for further details.

Params:
  • agentProperties – 
         A Properties object containing the configuration properties
         for the agent.
Throws:
Since:  1.8
/**
     * Starts the JMX management agent in the target virtual machine.
     *
     * <p> The configuration properties are the same as those specified on
     * the command line when starting the JMX management agent. In the same
     * way as on the command line, you need to specify at least the
     * {@code com.sun.management.jmxremote.port} property.
     *
     * <p> See the online documentation for
     * {@extLink monitoring_and_management_using_jmx_technology
     * Monitoring and Management Using JMX Technology} for further details.
     *
     * @param   agentProperties
     *          A Properties object containing the configuration properties
     *          for the agent.
     *
     * @throws  AttachOperationFailedException
     *          If the target virtual machine is unable to complete the
     *          attach operation. A more specific error message will be
     *          given by {@link AttachOperationFailedException#getMessage()}.
     *
     * @throws  IOException
     *          If an I/O error occurs, a communication error for example,
     *          that cannot be identified as an error to indicate that the
     *          operation failed in the target VM.
     *
     * @throws  IllegalArgumentException
     *          If keys or values in agentProperties are invalid.
     *
     * @throws  NullPointerException
     *          If agentProperties is null.
     *
     * @since   1.8
     */
    public abstract void startManagementAgent(Properties agentProperties) throws IOException;

    
Starts the local JMX management agent in the target virtual machine.

 See the online documentation for
{@extLink monitoring_and_management_using_jmx_technology
Monitoring and Management Using JMX Technology} for further details.

Throws:
  • AttachOperationFailedException –  If the target virtual machine is unable to complete the attach operation. A more specific error message will be given by Throwable.getMessage().
  • IOException – 
         If an I/O error occurs, a communication error for example,
         that cannot be identified as an error to indicate that the
         operation failed in the target VM.
Returns: The String representation of the local connector's service address. The value can be parsed by the JMXServiceURL.JMXServiceURL(String) constructor.
Since:  1.8
/**
     * Starts the local JMX management agent in the target virtual machine.
     *
     * <p> See the online documentation for
     * {@extLink monitoring_and_management_using_jmx_technology
     * Monitoring and Management Using JMX Technology} for further details.
     *
     * @return  The String representation of the local connector's service address.
     *          The value can be parsed by the
     *          {@link javax.management.remote.JMXServiceURL#JMXServiceURL(String)}
     *          constructor.
     *
     * @throws  AttachOperationFailedException
     *          If the target virtual machine is unable to complete the
     *          attach operation. A more specific error message will be
     *          given by {@link AttachOperationFailedException#getMessage()}.
     *
     * @throws  IOException
     *          If an I/O error occurs, a communication error for example,
     *          that cannot be identified as an error to indicate that the
     *          operation failed in the target VM.
     *
     * @since   1.8
     */
    public abstract String startLocalManagementAgent() throws IOException;

    
Returns a hash-code value for this VirtualMachine. The hash code is based upon the VirtualMachine's components, and satifies the general contract of the 
Object.hashCode method. 
Returns: A hash-code value for this virtual machine
/**
     * Returns a hash-code value for this VirtualMachine. The hash
     * code is based upon the VirtualMachine's components, and satifies
     * the general contract of the {@link java.lang.Object#hashCode()
     * Object.hashCode} method.
     *
     * @return  A hash-code value for this virtual machine
     */
    public int hashCode() {
        if (hash != 0) {
            return hash;
        }
        hash = provider.hashCode() * 127 + id.hashCode();
        return hash;
    }

    
Tests this VirtualMachine for equality with another object.

 If the given object is not a VirtualMachine then this method returns false. For two VirtualMachines to be considered equal requires that they both reference the same provider, and their identifiers are equal. 


 This method satisfies the general contract of the Object.equals method. 


Params:
  • ob –   The object to which this object is to be compared
Returns: true if, and only if, the given object is a VirtualMachine that is equal to this VirtualMachine.
/**
     * Tests this VirtualMachine for equality with another object.
     *
     * <p> If the given object is not a VirtualMachine then this
     * method returns {@code false}. For two VirtualMachines to
     * be considered equal requires that they both reference the same
     * provider, and their {@link VirtualMachineDescriptor#id() identifiers} are equal. </p>
     *
     * <p> This method satisfies the general contract of the {@link
     * java.lang.Object#equals(Object) Object.equals} method. </p>
     *
     * @param   ob   The object to which this object is to be compared
     *
     * @return  {@code true} if, and only if, the given object is
     *                a VirtualMachine that is equal to this
     *                VirtualMachine.
     */
    public boolean equals(Object ob) {
        if (ob == this)
            return true;
        if (!(ob instanceof VirtualMachine))
            return false;
        VirtualMachine other = (VirtualMachine)ob;
        if (other.provider() != this.provider()) {
            return false;
        }
        if (!other.id().equals(this.id())) {
            return false;
        }
        return true;
    }

    
Returns the string representation of the VirtualMachine. 
/**
     * Returns the string representation of the {@code VirtualMachine}.
     */
    public String toString() {
        return provider.toString() + ": " + id;
    }
}