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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 {@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 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 in a dynamic library and make use of the JVM Tools * Interface.

* *

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 * 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");
 *
 *      // get system properties in target VM
 *      Properties props = vm.getSystemProperties();
 *
 *      // construct path to management agent
 *      String home = props.getProperty("java.home");
 *      String agent = home + File.separator + "lib" + File.separator
 *          + "management-agent.jar";
 *
 *      // load agent into target VM
 *      vm.loadAgent(agent, "com.sun.management.jmxremote.port=5000");
 *
 *      // detach
 *      vm.detach();
 *
 * 
* *

In this example we attach to a Java virtual machine that is identified by * the process identifier 2177. The system properties from the target * VM are then used to construct the path to a management agent which is then * loaded into the target VM. Once loaded the client detaches from the target VM.

* *

A VirtualMachine is safe for use by multiple concurrent threads.

* * @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. * * @param provider * The attach provider creating this class. * @param id * The abstract identifier that identifies the Java virtual machine. * * @throws NullPointerException * If provider or id is 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 {@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 list() { ArrayList l = new ArrayList(); List 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 * {@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 attachVirtualMachine method of all providers throws * {@link com.sun.tools.attach.AttachNotSupportedException 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 * {@link com.sun.tools.attach.spi.AttachProvider#providers() * AttachProvider.providers()} returns an empty list.

* * @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} * ("attachVirtualMachine"), or another permission * required by the implementation. * * @throws AttachNotSupportedException * If the attachVirtualmachine method of all installed * providers throws AttachNotSupportedException, or * there aren't any providers installed. * * @throws IOException * If an I/O error occurs * * @throws NullPointerException * If id is null. */ public static VirtualMachine attach(String id) throws AttachNotSupportedException, IOException { if (id == null) { throw new NullPointerException("id cannot be null"); } List 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 {@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} * ("attachVirtualMachine"), or another permission * required by the implementation. * * @throws AttachNotSupportedException * If the attach provider's attachVirtualmachine * throws AttachNotSupportedException. * * @throws IOException * If an I/O error occurs * * @throws NullPointerException * If vmd is 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 {@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 * IOException. * *

If already detached from the virtual machine then invoking this * method has no effect.

* * @throws IOException * If an I/O error occurs */ public abstract void detach() throws IOException; /** * 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. * * @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. This method causes the given agent * library to be loaded into the target VM (if not already loaded). * It then causes the target VM to invoke the Agent_OnAttach function * as specified in the * JVM Tools * Interface specification. Note that the Agent_OnAttach * 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 foo might be expanded to * libfoo.so, and located using the search path specified by the * LD_LIBRARY_PATH environment variable.

* *

If the Agent_OnAttach function in the agent library returns * an error then an {@link com.sun.tools.attach.AgentInitializationException} is * thrown. The return value from the Agent_OnAttach can then be * obtained by invoking the {@link * com.sun.tools.attach.AgentInitializationException#returnValue() returnValue} * method on the exception.

* * @param agentLibrary * The name of the agent library. * * @param options * The options to provide to the Agent_OnAttach * function (can be null). * * @throws AgentLoadException * If the agent library does not exist, or cannot be loaded for * another reason. * * @throws AgentInitializationException * If the Agent_OnAttach function returns an error * * @throws IOException * If an I/O error occurs * * @throws NullPointerException * If agentLibrary is 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: * *

* {@link #loadAgentLibrary(String, String) loadAgentLibrary}(agentLibrary, null); *
* * @param agentLibrary * The name of the agent library. * * @throws AgentLoadException * If the agent library does not exist, or cannot be loaded for * another reason. * * @throws AgentInitializationException * If the Agent_OnAttach function returns an error * * @throws IOException * If an I/O error occurs * * @throws NullPointerException * If agentLibrary is 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. This method causes the given agent * library to be loaded into the target VM (if not already loaded). * It then causes the target VM to invoke the Agent_OnAttach function * as specified in the * JVM Tools * Interface specification. Note that the Agent_OnAttach * 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 {@link #loadAgentLibrary loadAgentLibrary}, the library name * is not expanded in the target virtual machine.

* *

If the Agent_OnAttach function in the agent library returns * an error then an {@link com.sun.tools.attach.AgentInitializationException} is * thrown. The return value from the Agent_OnAttach can then be * obtained by invoking the {@link * com.sun.tools.attach.AgentInitializationException#returnValue() returnValue} * method on the exception.

* * @param agentPath * The full path of the agent library. * * @param options * The options to provide to the Agent_OnAttach * function (can be null). * * @throws AgentLoadException * If the agent library does not exist, or cannot be loaded for * another reason. * * @throws AgentInitializationException * If the Agent_OnAttach function returns an error * * @throws IOException * If an I/O error occurs * * @throws NullPointerException * If agentPath is 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: * *

* {@link #loadAgentPath(String, String) loadAgentPath}(agentLibrary, null); *
* * @param agentPath * The full path to the agent library. * * @throws AgentLoadException * If the agent library does not exist, or cannot be loaded for * another reason. * * @throws AgentInitializationException * If the Agent_OnAttach function returns an error * * @throws IOException * If an I/O error occurs * * @throws NullPointerException * If agentPath is 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 {@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 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. * * @param agent * Path to the JAR file containing the agent. * * @param options * The options to provide to the agent's agentmain * method (can be 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 agentmain throws an exception * * @throws IOException * If an I/O error occurs * * @throws NullPointerException * If agent is null. */ public abstract void loadAgent(String agent, String options) throws AgentLoadException, AgentInitializationException, IOException; /** * Loads an agent. * *

This convenience method works as if by invoking: * *

* {@link #loadAgent(String, String) loadAgent}(agent, null); *
* * @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 agentmain throws an exception * * @throws IOException * If an I/O error occurs * * @throws NullPointerException * If agent is 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 {@link java.lang.System#getProperties 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 {@link #loadAgent loadAgent}, or * {@link #loadAgentLibrary loadAgentLibrary}. For example, the * java.home or user.dir properties might be * use to create the path to the agent library or JAR file. * * @return The system properties * * @throws IOException * If an I/O error occurs * * @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. * * @return The agent properties * * @throws IOException * If an I/O error occurs */ public abstract Properties getAgentProperties() 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 {@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 {@link VirtualMachineDescriptor#id() identifiers} are equal.

* *

This method satisfies the general contract of the {@link * java.lang.Object#equals(Object) Object.equals} method.

* * @param ob The object to which this object is to be compared * * @return 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. */ public String toString() { return provider.toString() + ": " + id; } }




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