/* * Copyright (c) 1998, 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 com.sun.jdi; import com.sun.jdi.connect.*; import com.sun.jdi.connect.spi.Connection; import java.util.List; import java.io.IOException; /** * A manager of connections to target virtual machines. The * VirtualMachineManager allows one application to debug * multiple target VMs. (Note that the converse is not * supported; a target VM can be debugged by only one * debugger application.) This interface * contains methods to manage connections * to remote target VMs and to obtain the {@link VirtualMachine} * mirror for available target VMs. *

* Connections can be made using one of several different * {@link com.sun.jdi.connect.Connector} objects. Each connector encapsulates * a different way of connecting the debugger with a target VM. *

* The VirtualMachineManager supports many different scenarios for * connecting a debugger to a virtual machine. Four examples * are presented in the table below. The * examples use the command line syntax in Sun's implementation. * Some {@link com.sun.jdi.connect.Connector} implementations may require slightly * different handling than presented below. *

* * * * * * * * * * * * * * * * * * * * * * * *
ScenarioDescription
Debugger launches target VM (simplest, most-common scenario)Debugger calls the * {@link com.sun.jdi.connect.LaunchingConnector#launch(java.util.Map)} * method of the default connector, obtained with {@link #defaultConnector}. The * target VM is launched, and a connection between that VM and the * debugger is established. A {@link VirtualMachine} mirror is returned. *

Or, for more control *

    *
  • * Debugger selects a connector from the list returned by * {@link #launchingConnectors} with desired characteristics * (for example, transport type, etc.). *
  • * Debugger calls the * {@link com.sun.jdi.connect.LaunchingConnector#launch(java.util.Map)} * method of the selected connector. The * target VM is launched, and a connection between that VM and the * debugger is established. A {@link VirtualMachine} mirror is returned. *
*
Debugger attaches to previously-running VM *
    *
  • * Target VM is launched using the options * -agentlib:jdwp=transport=xxx,server=y *
  • *
  • * Target VM generates and outputs the tranport-specific address at which it will * listen for a connection.
  • *
  • * Debugger is launched. Debugger selects a connector in the list * returned by {@link #attachingConnectors} matching the transport with * the name "xxx". *
  • * Debugger presents the default connector parameters (obtained through * {@link com.sun.jdi.connect.Connector#defaultArguments()}) to the end user, * allowing the user to * fill in the transport-specific address generated by the target VM. *
  • * Debugger calls the {@link com.sun.jdi.connect.AttachingConnector#attach(java.util.Map)} method * of the selected to attach to the target VM. A {@link VirtualMachine} * mirror is returned. *
*
Target VM attaches to previously-running debugger *
  • * At startup, debugger selects one or more connectors from * the list returned by {@link #listeningConnectors} for one or more * transports.
  • *
  • * Debugger calls the {@link com.sun.jdi.connect.ListeningConnector#startListening(java.util.Map)} method for each selected * connector. For each call, a transport-specific address string is * generated and returned. The debugger makes the transport names and * corresponding address strings available to the end user. *
  • * Debugger calls * {@link com.sun.jdi.connect.ListeningConnector#accept(java.util.Map)} * for each selected connector to wait for * a target VM to connect.
  • *
  • * Later, target VM is launched by end user with the options * -agentlib:jdwp=transport=xxx,address=yyy * where "xxx" the transport for one of the connectors selected by the * the debugger and "yyy" * is the address generated by * {@link com.sun.jdi.connect.ListeningConnector#accept(java.util.Map)} for that * transport.
  • *
  • * Debugger's call to {@link com.sun.jdi.connect.ListeningConnector#accept(java.util.Map)} returns * a {@link VirtualMachine} mirror.
  • *
    Target VM launches debugger (sometimes called "Just-In-Time" debugging) *
  • * Target VM is launched with the options * -agentlib:jdwp=launch=cmdline,onuncaught=y,transport=xxx,server=y *
  • *
  • * Later, an uncaught exception is thrown in the target VM. The target * VM generates the tranport-specific address at which it will * listen for a connection. *
  • Target VM launches the debugger with the following items concatenated * together (separated by spaces) to form the command line: *
      *
    • The launch= value *
    • The transport= value *
    • The generated transport-specific address at which VM is listening for * debugger connection. *
    *
  • * Upon launch, debugger selects a connector in the list * returned by {@link #attachingConnectors} matching the transport with * the name "xxx". *
  • * Debugger changes the default connector parameters (obtained through * {@link com.sun.jdi.connect.Connector#defaultArguments()}) to specify * the transport specific address at which the VM is listenig. Optionally, * other connector arguments can be presented to the user. *
  • * Debugger calls the * {@link com.sun.jdi.connect.AttachingConnector#attach(java.util.Map)} method * of the selected to attach to the target VM. A {@link VirtualMachine} * mirror is returned. *
  • * *

    Connectors are created at start-up time. That is, they * are created the first time that {@link * com.sun.jdi.Bootstrap#virtualMachineManager()} is invoked. * The list of all Connectors created at start-up time can be * obtained from the VirtualMachineManager by invoking the * {@link #allConnectors allConnectors} method. * *

    Connectors are created at start-up time if they are * installed on the platform. In addition, Connectors are created * automatically by the VirtualMachineManager to encapsulate any * {@link com.sun.jdi.connect.spi.TransportService} implementations * that are installed on the platform. These two mechanisms for * creating Connectors are described here. * *

    A Connector is installed on the platform if it is installed * in a jar file that is visible to the defining class loader of * the {@link com.sun.jdi.connect.Connector} type, * and that jar file contains a provider configuration file named * com.sun.jdi.connect.Connector in the resource directory * META-INF/services, and the provider configuration file * lists the full-qualified class name of the Connector * implementation. A Connector is a class that implements the * {@link com.sun.jdi.connect.Connector Connector} interface. More * appropriately the class implements one of the specific Connector * types, namely {@link com.sun.jdi.connect.AttachingConnector * AttachingConnector}, {@link com.sun.jdi.connect.ListeningConnector * ListeningConnector}, or {@link com.sun.jdi.connect.LaunchingConnector * LaunchingConnector}. The format of the provider configuration file * is one fully-qualified class name per line. Space and tab characters * surrounding each class, as well as blank lines are ignored. The * comment character is '#' (0x23), and on each * line all characters following the first comment character are * ignored. The file must be encoded in UTF-8. * *

    At start-up time the VirtualMachineManager attempts to load * and instantiate (using the no-arg constructor) each class listed * in the provider configuration file. Exceptions thrown when loading * or creating the Connector are caught and ignored. In other words, * the start-up process continues despite of errors. * *

    In addition to Connectors installed on the platform the * VirtualMachineManager will also create Connectors to encapsulate * any {@link com.sun.jdi.connect.spi.TransportService} implementations * that are installed on the platform. A TransportService is * installed on the platform if it installed in a jar file that is * visible to the defining class loader for the * {@link com.sun.jdi.connect.spi.TransportService} type, and that jar * file contains a provider configuration file named * com.sun.jdi.connect.spi.TransportService in the resource * directory META-INF/services, and the provider * configuration file lists the the full-qualified class name of the * TransportService implementation. A TransportService is a concrete * sub-class of {@link com.sun.jdi.connect.spi.TransportService * TransportService}. The format of the provider configuration file * is the same as the provider configuration file for Connectors * except that each class listed must be the fully-qualified class * name of a class that implements the TransportService interface. * *

    For each TransportService installed on the platform, the * VirtualMachineManager creates a corresponding * {@link com.sun.jdi.connect.AttachingConnector} and * {@link com.sun.jdi.connect.ListeningConnector}. These * Connectors are created to encapsulate a {@link * com.sun.jdi.connect.Transport Transport} that in turn * encapsulates the TransportService. * The AttachingConnector will be named based on the name of the * transport service concatenated with the string Attach. * For example, if the transport service {@link * com.sun.jdi.connect.spi.TransportService#name() name()} method * returns telepathic then the AttachingConnector will * be named telepathicAttach. Similiarly the ListeningConnector * will be named with the string Listen tagged onto the * name of the transport service. The {@link * com.sun.jdi.connect.Connector#description() description()} method * of both the AttachingConnector, and the ListeningConnector, will * delegate to the {@link com.sun.jdi.connect.spi.TransportService#description() * description()} method of the underlying transport service. Both * the AttachingConnector and the ListeningConnector will have two * Connector {@link com.sun.jdi.connect.Connector$Argument Arguments}. * A {@link com.sun.jdi.connect.Connector$StringArgument StringArgument} * named address is the connector argument to specify the * address to attach too, or to listen on. A * {@link com.sun.jdi.connect.Connector$IntegerArgument IntegerArgument} * named timeout is the connector argument to specify the * timeout when attaching, or accepting. The timeout connector may be * ignored depending on if the transport service supports an attach * timeout or accept timeout. * *

    Initialization of the virtual machine manager will fail, that is * {@link com.sun.jdi.Bootstrap#virtualMachineManager()} will throw an * error if the virtual machine manager is unable to create any * connectors. * * @author Gordon Hirsch * @since 1.3 */ @jdk.Exported public interface VirtualMachineManager { /** * Identifies the default connector. This connector should * be used as the launching connector when selection of a * connector with specific characteristics is unnecessary. * * @return the default {@link com.sun.jdi.connect.LaunchingConnector} */ LaunchingConnector defaultConnector(); /** * Returns the list of known {@link com.sun.jdi.connect.LaunchingConnector} objects. * Any of the returned objects can be used to launch a new target * VM and immediately create a {@link VirtualMachine} mirror for it. * * Note that a target VM launched by a launching connector is not * guaranteed to be stable until after the {@link com.sun.jdi.event.VMStartEvent} has been * received. * @return a list of {@link com.sun.jdi.connect.LaunchingConnector} objects. */ List launchingConnectors(); /** * Returns the list of known {@link com.sun.jdi.connect.AttachingConnector} objects. * Any of the returned objects can be used to attach to an existing target * VM and create a {@link VirtualMachine} mirror for it. * * @return a list of {@link com.sun.jdi.connect.AttachingConnector} objects. */ List attachingConnectors(); /** * Returns the list of known {@link com.sun.jdi.connect.ListeningConnector} objects. * Any of the returned objects can be used to listen for a * connection initiated by a target VM * and create a {@link VirtualMachine} mirror for it. * * @return a list of {@link com.sun.jdi.connect.ListeningConnector} objects. */ List listeningConnectors(); /** * Returns the list of all known {@link com.sun.jdi.connect.Connector} objects. * * @return a list of {@link com.sun.jdi.connect.Connector} objects. */ List allConnectors(); /** * Lists all target VMs which are connected to the debugger. * The list includes {@link VirtualMachine} instances for * any target VMs which initiated a connection * and any * target VMs to which this manager has initiated a connection. * A target VM will remain in this list * until the VM is disconnected. * {@link com.sun.jdi.event.VMDisconnectEvent} is placed in the event queue * after the VM is removed from the list. * * @return a list of {@link VirtualMachine} objects, each mirroring * a target VM. */ List connectedVirtualMachines(); /** * Returns the major version number of the JDI interface. * See {@link VirtualMachine#version} target VM version and * information and * {@link VirtualMachine#description} more version information. * * @return the integer major version number. */ int majorInterfaceVersion(); /** * Returns the minor version number of the JDI interface. * See {@link VirtualMachine#version} target VM version and * information and * {@link VirtualMachine#description} more version information. * * @return the integer minor version number */ int minorInterfaceVersion(); /** * Create a virtual machine mirror for a target VM. * *

    Creates a virtual machine mirror for a target VM * for which a {@link com.sun.jdi.connect.spi.Connection Connection} * already exists. A Connection is created when a {@link * com.sun.jdi.connect.Connector Connector} establishes * a connection and successfully handshakes with a target VM. * A Connector can then use this method to create a virtual machine * mirror to represent the composite state of the target VM. * *

    The process argument specifies the * {@link java.lang.Process} object for the taget VM. It may be * specified as null. If the target VM is launched * by a {@link com.sun.jdi.connect.LaunchingConnector * LaunchingConnector} the process argument should be * specified, otherwise calling {@link com.sun.jdi.VirtualMachine#process()} * on the created virtual machine will return null. * *

    This method exists so that Connectors may create * a virtual machine mirror when a connection is established * to a target VM. Only developers creating new Connector * implementations should need to make direct use of this * method.

    * * @param connection * The open connection to the target VM. * * @param process * If launched, the {@link java.lang.Process} object for * the target VM. null if not launched. * * @return new virtual machine representing the target VM. * * @throws IOException * if an I/O error occurs * * @throws IllegalStateException * if the connection is not open * * @see com.sun.jdi.connect.spi.Connection#isOpen() * @see com.sun.jdi.VirtualMachine#process() * * @since 1.5 */ VirtualMachine createVirtualMachine(Connection connection, Process process) throws IOException; /** * Creates a new virtual machine. * *

    This convenience method works as if by invoking {@link * #createVirtualMachine(Connection, Process)} method and * specifying null as the process argument. * *

    This method exists so that Connectors may create * a virtual machine mirror when a connection is established * to a target VM. Only developers creating new Connector * implementations should need to make direct use of this * method.

    * * @return the new virtual machine * * @throws IOException * if an I/O error occurs * * @throws IllegalStateException * if the connection is not open * * @since 1.5 */ VirtualMachine createVirtualMachine(Connection connection) throws IOException; }