Mercurial > hg > graal-compiler
view agent/src/share/classes/sun/jvm/hotspot/bugspot/BugSpotAgent.java @ 3960:f08d439fab8c
7089790: integrate bsd-port changes
Reviewed-by: kvn, twisti, jrose
Contributed-by: Kurt Miller <kurt@intricatesoftware.com>, Greg Lewis <glewis@eyesbeyond.com>, Jung-uk Kim <jkim@freebsd.org>, Christos Zoulas <christos@zoulas.com>, Landon Fuller <landonf@plausible.coop>, The FreeBSD Foundation <board@freebsdfoundation.org>, Michael Franz <mvfranz@gmail.com>, Roger Hoover <rhoover@apple.com>, Alexander Strange <astrange@apple.com>
| author | never |
|---|---|
| date | Sun, 25 Sep 2011 16:03:29 -0700 |
| parents | f6f3bb0ee072 |
| children | 78d2ae5ab35b |
line wrap: on
line source
/* * Copyright (c) 2002, 2011, 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. * * 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 sun.jvm.hotspot.bugspot; import java.io.PrintStream; import java.net.*; import java.rmi.*; import sun.jvm.hotspot.*; import sun.jvm.hotspot.debugger.*; import sun.jvm.hotspot.debugger.bsd.*; import sun.jvm.hotspot.debugger.proc.*; import sun.jvm.hotspot.debugger.cdbg.*; import sun.jvm.hotspot.debugger.windbg.*; import sun.jvm.hotspot.debugger.linux.*; import sun.jvm.hotspot.debugger.sparc.*; import sun.jvm.hotspot.debugger.remote.*; import sun.jvm.hotspot.livejvm.*; import sun.jvm.hotspot.memory.*; import sun.jvm.hotspot.oops.*; import sun.jvm.hotspot.runtime.*; import sun.jvm.hotspot.types.*; import sun.jvm.hotspot.utilities.*; /** <P> This class wraps the basic functionality for connecting to the * target process or debug server. It makes it simple to start up the * debugging system. </P> * * <P> This agent (as compared to the HotSpotAgent) can connect to * and interact with arbitrary processes. If the target process * happens to be a HotSpot JVM, the Java debugging features of the * Serviceability Agent are enabled. Further, if the Serviceability * Agent's JVMDI module is loaded into the target VM, interaction * with the live Java program is possible, specifically the catching * of exceptions and setting of breakpoints. </P> * * <P> The BugSpot debugger requires that the underlying Debugger * support C/C++ debugging via the CDebugger interface. </P> * * <P> FIXME: need to add a way to configure the paths to dbx and the * DSO from the outside. However, this should work for now for * internal use. </P> * * <P> FIXME: especially with the addition of remote debugging, this * has turned into a mess; needs rethinking. </P> */ public class BugSpotAgent { private JVMDebugger debugger; private MachineDescription machDesc; private TypeDataBase db; private String os; private String cpu; private String fileSep; // The system can work in several ways: // - Attaching to local process // - Attaching to local core file // - Connecting to remote debug server // - Starting debug server for process // - Starting debug server for core file // These are options for the "client" side of things private static final int PROCESS_MODE = 0; private static final int CORE_FILE_MODE = 1; private static final int REMOTE_MODE = 2; private int startupMode; // This indicates whether we are really starting a server or not private boolean isServer; // All possible required information for connecting private int pid; private String executableName; private String coreFileName; private String debugServerID; // All needed information for server side private String serverID; // Indicates whether we are attached to a HotSpot JVM or not private boolean javaMode; // Indicates whether we have process control over a live HotSpot JVM // or not; non-null if so. private ServiceabilityAgentJVMDIModule jvmdi; // While handling C breakpoints interactivity with the Java program // is forbidden. Too many invariants are broken while the target is // stopped at a C breakpoint to risk making JVMDI calls. private boolean javaInteractionDisabled; private String[] jvmLibNames; private String[] saLibNames; // FIXME: make these configurable, i.e., via a dotfile; also // consider searching within the JDK from which this Java executable // comes to find them private static final String defaultDbxPathPrefix = "/net/jano.eng/export/disk05/hotspot/sa"; private static final String defaultDbxSvcAgentDSOPathPrefix = "/net/jano.eng/export/disk05/hotspot/sa"; private static final boolean DEBUG; static { DEBUG = System.getProperty("sun.jvm.hotspot.bugspot.BugSpotAgent.DEBUG") != null; } static void debugPrintln(String str) { if (DEBUG) { System.err.println(str); } } static void showUsage() { System.out.println(" You can also pass these -D options to java to specify where to find dbx and the \n" + " Serviceability Agent plugin for dbx:"); System.out.println(" -DdbxPathName=<path-to-dbx-executable>\n" + " Default is derived from dbxPathPrefix"); System.out.println(" or"); System.out.println(" -DdbxPathPrefix=<xxx>\n" + " where xxx is the path name of a dir structure that contains:\n" + " <os>/<arch>/bin/dbx\n" + " The default is " + defaultDbxPathPrefix); System.out.println(" and"); System.out.println(" -DdbxSvcAgentDSOPathName=<path-to-dbx-serviceability-agent-module>\n" + " Default is determined from dbxSvcAgentDSOPathPrefix"); System.out.println(" or"); System.out.println(" -DdbxSvcAgentDSOPathPrefix=<xxx>\n" + " where xxx is the pathname of a dir structure that contains:\n" + " <os>/<arch>/bin/lib/libsvc_agent_dbx.so\n" + " The default is " + defaultDbxSvcAgentDSOPathPrefix); } public BugSpotAgent() { // for non-server add shutdown hook to clean-up debugger in case // of forced exit. For remote server, shutdown hook is added by // DebugServer. Runtime.getRuntime().addShutdownHook(new java.lang.Thread( new Runnable() { public void run() { synchronized (BugSpotAgent.this) { if (!isServer) { detach(); } } } })); } //-------------------------------------------------------------------------------- // Accessors (once the system is set up) // public synchronized Debugger getDebugger() { return debugger; } public synchronized CDebugger getCDebugger() { return getDebugger().getCDebugger(); } public synchronized ProcessControl getProcessControl() { return getCDebugger().getProcessControl(); } public synchronized TypeDataBase getTypeDataBase() { return db; } /** Indicates whether the target process is suspended completely. Equivalent to getProcessControl().isSuspended(). */ public synchronized boolean isSuspended() throws DebuggerException { return getProcessControl().isSuspended(); } /** Suspends the target process completely. Equivalent to getProcessControl().suspend(). */ public synchronized void suspend() throws DebuggerException { getProcessControl().suspend(); } /** Resumes the target process completely. Equivalent to getProcessControl().suspend(). */ public synchronized void resume() throws DebuggerException { getProcessControl().resume(); } /** Indicates whether we are attached to a Java HotSpot virtual machine */ public synchronized boolean isJavaMode() { return javaMode; } /** Temporarily disables interaction with the target process via JVMDI. This is done while the target process is stopped at a C breakpoint. Can be called even if the JVMDI agent has not been initialized. */ public synchronized void disableJavaInteraction() { javaInteractionDisabled = true; } /** Re-enables interaction with the target process via JVMDI. This is done while the target process is continued past a C braekpoint. Can be called even if the JVMDI agent has not been initialized. */ public synchronized void enableJavaInteraction() { javaInteractionDisabled = false; } /** Indicates whether Java interaction has been disabled */ public synchronized boolean isJavaInteractionDisabled() { return javaInteractionDisabled; } /** Indicates whether we can talk to the Serviceability Agent's JVMDI module to be able to set breakpoints */ public synchronized boolean canInteractWithJava() { return (jvmdi != null) && !javaInteractionDisabled; } /** Suspends all Java threads in the target process. Can only be called if we are attached to a HotSpot JVM and can connect to the SA's JVMDI module. Must not be called when the target process has been suspended with suspend(). */ public synchronized void suspendJava() throws DebuggerException { if (!canInteractWithJava()) { throw new DebuggerException("Could not connect to SA's JVMDI module"); } if (jvmdi.isSuspended()) { throw new DebuggerException("Target process already suspended via JVMDI"); } jvmdi.suspend(); } /** Resumes all Java threads in the target process. Can only be called if we are attached to a HotSpot JVM and can connect to the SA's JVMDI module. Must not be called when the target process has been suspended with suspend(). */ public synchronized void resumeJava() throws DebuggerException { if (!canInteractWithJava()) { throw new DebuggerException("Could not connect to SA's JVMDI module"); } if (!jvmdi.isSuspended()) { throw new DebuggerException("Target process already resumed via JVMDI"); } jvmdi.resume(); } /** Indicates whether the target process has been suspended at the Java language level via the SA's JVMDI module */ public synchronized boolean isJavaSuspended() throws DebuggerException { return jvmdi.isSuspended(); } /** Toggle a Java breakpoint at the given location. */ public synchronized ServiceabilityAgentJVMDIModule.BreakpointToggleResult toggleJavaBreakpoint(String srcFileName, String pkgName, int lineNo) { if (!canInteractWithJava()) { throw new DebuggerException("Could not connect to SA's JVMDI module; can not toggle Java breakpoints"); } return jvmdi.toggleBreakpoint(srcFileName, pkgName, lineNo); } /** Access to JVMDI module's eventPending */ public synchronized boolean javaEventPending() throws DebuggerException { if (!canInteractWithJava()) { throw new DebuggerException("Could not connect to SA's JVMDI module; can not poll for Java debug events"); } return jvmdi.eventPending(); } /** Access to JVMDI module's eventPoll */ public synchronized Event javaEventPoll() throws DebuggerException { if (!canInteractWithJava()) { throw new DebuggerException("Could not connect to SA's JVMDI module; can not poll for Java debug events"); } return jvmdi.eventPoll(); } /** Access to JVMDI module's eventContinue */ public synchronized void javaEventContinue() throws DebuggerException { if (!canInteractWithJava()) { throw new DebuggerException("Could not connect to SA's JVMDI module; can not continue past Java debug events"); } jvmdi.eventContinue(); } // FIXME: add other accessors. For example, suspension and // resumption should be done through this interface, as well as // interaction with the live Java process such as breakpoint setting. // Probably should not expose the ServiceabilityAgentJVMDIModule // from this interface. //-------------------------------------------------------------------------------- // Client-side operations // /** This attaches to a process running on the local machine. */ public synchronized void attach(int processID) throws DebuggerException { if (debugger != null) { throw new DebuggerException("Already attached"); } pid = processID; startupMode = PROCESS_MODE; isServer = false; go(); } /** This opens a core file on the local machine */ public synchronized void attach(String executableName, String coreFileName) throws DebuggerException { if (debugger != null) { throw new DebuggerException("Already attached"); } if ((executableName == null) || (coreFileName == null)) { throw new DebuggerException("Both the core file name and executable name must be specified"); } this.executableName = executableName; this.coreFileName = coreFileName; startupMode = CORE_FILE_MODE; isServer = false; go(); } /** This attaches to a "debug server" on a remote machine; this remote server has already attached to a process or opened a core file and is waiting for RMI calls on the Debugger object to come in. */ public synchronized void attach(String remoteServerID) throws DebuggerException { if (debugger != null) { throw new DebuggerException("Already attached to a process"); } if (remoteServerID == null) { throw new DebuggerException("Debug server id must be specified"); } debugServerID = remoteServerID; startupMode = REMOTE_MODE; isServer = false; go(); } /** This should only be called by the user on the client machine, not the server machine */ public synchronized boolean detach() throws DebuggerException { if (isServer) { throw new DebuggerException("Should not call detach() for server configuration"); } return detachInternal(); } //-------------------------------------------------------------------------------- // Server-side operations // /** This attaches to a process running on the local machine and starts a debug server, allowing remote machines to connect and examine this process. uniqueID is used to uniquely identify the debuggee */ public synchronized void startServer(int processID, String uniqueID) throws DebuggerException { if (debugger != null) { throw new DebuggerException("Already attached"); } pid = processID; startupMode = PROCESS_MODE; isServer = true; serverID = uniqueID; go(); } /** This attaches to a process running on the local machine and starts a debug server, allowing remote machines to connect and examine this process. */ public synchronized void startServer(int processID) throws DebuggerException { startServer(processID, null); } /** This opens a core file on the local machine and starts a debug server, allowing remote machines to connect and examine this core file. uniqueID is used to uniquely identify the debuggee */ public synchronized void startServer(String executableName, String coreFileName, String uniqueID) throws DebuggerException { if (debugger != null) { throw new DebuggerException("Already attached"); } if ((executableName == null) || (coreFileName == null)) { throw new DebuggerException("Both the core file name and Java executable name must be specified"); } this.executableName = executableName; this.coreFileName = coreFileName; startupMode = CORE_FILE_MODE; isServer = true; serverID = uniqueID; go(); } /** This opens a core file on the local machine and starts a debug server, allowing remote machines to connect and examine this core file.*/ public synchronized void startServer(String executableName, String coreFileName) throws DebuggerException { startServer(executableName, coreFileName, null); } /** This may only be called on the server side after startServer() has been called */ public synchronized boolean shutdownServer() throws DebuggerException { if (!isServer) { throw new DebuggerException("Should not call shutdownServer() for client configuration"); } return detachInternal(); } //-------------------------------------------------------------------------------- // Internals only below this point // private boolean detachInternal() { if (debugger == null) { return false; } if (canInteractWithJava()) { jvmdi.detach(); jvmdi = null; } boolean retval = true; if (!isServer) { VM.shutdown(); } // We must not call detach() if we are a client and are connected // to a remote debugger Debugger dbg = null; DebuggerException ex = null; if (isServer) { try { RMIHelper.unbind(serverID); } catch (DebuggerException de) { ex = de; } dbg = debugger; } else { if (startupMode != REMOTE_MODE) { dbg = debugger; } } if (dbg != null) { retval = dbg.detach(); } debugger = null; machDesc = null; db = null; if (ex != null) { throw(ex); } return retval; } private void go() { setupDebugger(); javaMode = setupVM(); } private void setupDebugger() { if (startupMode != REMOTE_MODE) { // // Local mode (client attaching to local process or setting up // server, but not client attaching to server) // try { os = PlatformInfo.getOS(); cpu = PlatformInfo.getCPU(); } catch (UnsupportedPlatformException e) { throw new DebuggerException(e); } fileSep = System.getProperty("file.separator"); if (os.equals("solaris")) { setupDebuggerSolaris(); } else if (os.equals("win32")) { setupDebuggerWin32(); } else if (os.equals("linux")) { setupDebuggerLinux(); } else if (os.equals("bsd")) { setupDebuggerBsd(); } else { // Add support for more operating systems here throw new DebuggerException("Operating system " + os + " not yet supported"); } if (isServer) { RemoteDebuggerServer remote = null; try { remote = new RemoteDebuggerServer(debugger); } catch (RemoteException rem) { throw new DebuggerException(rem); } RMIHelper.rebind(serverID, remote); } } else { // // Remote mode (client attaching to server) // // Create and install a security manager // FIXME: currently commented out because we were having // security problems since we're "in the sun.* hierarchy" here. // Perhaps a permissive policy file would work around this. In // the long run, will probably have to move into com.sun.*. // if (System.getSecurityManager() == null) { // System.setSecurityManager(new RMISecurityManager()); // } connectRemoteDebugger(); } } private boolean setupVM() { // We need to instantiate a HotSpotTypeDataBase on both the client // and server machine. On the server it is only currently used to // configure the Java primitive type sizes (which we should // consider making constant). On the client it is used to // configure the VM. try { if (os.equals("solaris")) { db = new HotSpotTypeDataBase(machDesc, new HotSpotSolarisVtblAccess(debugger, jvmLibNames), debugger, jvmLibNames); } else if (os.equals("win32")) { db = new HotSpotTypeDataBase(machDesc, new Win32VtblAccess(debugger, jvmLibNames), debugger, jvmLibNames); } else if (os.equals("linux")) { db = new HotSpotTypeDataBase(machDesc, new LinuxVtblAccess(debugger, jvmLibNames), debugger, jvmLibNames); } else if (os.equals("bsd")) { db = new HotSpotTypeDataBase(machDesc, new BsdVtblAccess(debugger, jvmLibNames), debugger, jvmLibNames); } else { throw new DebuggerException("OS \"" + os + "\" not yet supported (no VtblAccess implemented yet)"); } } catch (NoSuchSymbolException e) { e.printStackTrace(); return false; } if (startupMode != REMOTE_MODE) { // Configure the debugger with the primitive type sizes just obtained from the VM debugger.configureJavaPrimitiveTypeSizes(db.getJBooleanType().getSize(), db.getJByteType().getSize(), db.getJCharType().getSize(), db.getJDoubleType().getSize(), db.getJFloatType().getSize(), db.getJIntType().getSize(), db.getJLongType().getSize(), db.getJShortType().getSize()); } if (!isServer) { // Do not initialize the VM on the server (unnecessary, since it's // instantiated on the client) VM.initialize(db, debugger); } try { jvmdi = new ServiceabilityAgentJVMDIModule(debugger, saLibNames); if (jvmdi.canAttach()) { jvmdi.attach(); jvmdi.setCommandTimeout(6000); debugPrintln("Attached to Serviceability Agent's JVMDI module."); // Jog VM to suspended point with JVMDI module resume(); suspendJava(); suspend(); debugPrintln("Suspended all Java threads."); } else { debugPrintln("Could not locate SA's JVMDI module; skipping attachment"); jvmdi = null; } } catch (Exception e) { e.printStackTrace(); jvmdi = null; } return true; } //-------------------------------------------------------------------------------- // OS-specific debugger setup/connect routines // // // Solaris // private void setupDebuggerSolaris() { setupJVMLibNamesSolaris(); ProcDebuggerLocal dbg = new ProcDebuggerLocal(null, true); debugger = dbg; attachDebugger(); // Set up CPU-dependent stuff if (cpu.equals("x86")) { machDesc = new MachineDescriptionIntelX86(); } else if (cpu.equals("sparc")) { int addressSize = dbg.getRemoteProcessAddressSize(); if (addressSize == -1) { throw new DebuggerException("Error occurred while trying to determine the remote process's address size"); } if (addressSize == 32) { machDesc = new MachineDescriptionSPARC32Bit(); } else if (addressSize == 64) { machDesc = new MachineDescriptionSPARC64Bit(); } else { throw new DebuggerException("Address size " + addressSize + " is not supported on SPARC"); } } else if (cpu.equals("amd64")) { machDesc = new MachineDescriptionAMD64(); } else { throw new DebuggerException("Solaris only supported on sparc/sparcv9/x86/amd64"); } dbg.setMachineDescription(machDesc); } private void connectRemoteDebugger() throws DebuggerException { RemoteDebugger remote = (RemoteDebugger) RMIHelper.lookup(debugServerID); debugger = new RemoteDebuggerClient(remote); machDesc = ((RemoteDebuggerClient) debugger).getMachineDescription(); os = debugger.getOS(); if (os.equals("solaris")) { setupJVMLibNamesSolaris(); } else if (os.equals("win32")) { setupJVMLibNamesWin32(); } else if (os.equals("linux")) { setupJVMLibNamesLinux(); } else if (os.equals("bsd")) { setupJVMLibNamesBsd(); } else { throw new RuntimeException("Unknown OS type"); } cpu = debugger.getCPU(); } private void setupJVMLibNamesSolaris() { jvmLibNames = new String[] { "libjvm.so", "libjvm_g.so", "gamma_g" }; saLibNames = new String[] { "libsa.so", "libsa_g.so" }; } // // Win32 // private void setupDebuggerWin32() { setupJVMLibNamesWin32(); if (cpu.equals("x86")) { machDesc = new MachineDescriptionIntelX86(); } else if (cpu.equals("amd64")) { machDesc = new MachineDescriptionAMD64(); } else if (cpu.equals("ia64")) { machDesc = new MachineDescriptionIA64(); } else { throw new DebuggerException("Win32 supported under x86, amd64 and ia64 only"); } // Note we do not use a cache for the local debugger in server // mode; it will be taken care of on the client side (once remote // debugging is implemented). debugger = new WindbgDebuggerLocal(machDesc, !isServer); attachDebugger(); } private void setupJVMLibNamesWin32() { jvmLibNames = new String[] { "jvm.dll", "jvm_g.dll" }; saLibNames = new String[] { "sa.dll", "sa_g.dll" }; } // // Linux // private void setupDebuggerLinux() { setupJVMLibNamesLinux(); if (cpu.equals("x86")) { machDesc = new MachineDescriptionIntelX86(); } else if (cpu.equals("ia64")) { machDesc = new MachineDescriptionIA64(); } else if (cpu.equals("amd64")) { machDesc = new MachineDescriptionAMD64(); } else if (cpu.equals("sparc")) { if (LinuxDebuggerLocal.getAddressSize()==8) { machDesc = new MachineDescriptionSPARC64Bit(); } else { machDesc = new MachineDescriptionSPARC32Bit(); } } else { throw new DebuggerException("Linux only supported on x86/ia64/amd64/sparc/sparc64"); } // Note we do not use a cache for the local debugger in server // mode; it will be taken care of on the client side (once remote // debugging is implemented). debugger = new LinuxDebuggerLocal(machDesc, !isServer); attachDebugger(); } private void setupJVMLibNamesLinux() { // same as solaris setupJVMLibNamesSolaris(); } // // BSD // private void setupDebuggerBsd() { setupJVMLibNamesBsd(); if (cpu.equals("x86")) { machDesc = new MachineDescriptionIntelX86(); } else if (cpu.equals("amd64")) { machDesc = new MachineDescriptionAMD64(); } else { throw new DebuggerException("Bsd only supported on x86/amd64"); } // Note we do not use a cache for the local debugger in server // mode; it will be taken care of on the client side (once remote // debugging is implemented). debugger = new BsdDebuggerLocal(machDesc, !isServer); attachDebugger(); } private void setupJVMLibNamesBsd() { // same as solaris setupJVMLibNamesSolaris(); } /** Convenience routine which should be called by per-platform debugger setup. Should not be called when startupMode is REMOTE_MODE. */ private void attachDebugger() { if (startupMode == PROCESS_MODE) { debugger.attach(pid); } else if (startupMode == CORE_FILE_MODE) { debugger.attach(executableName, coreFileName); } else { throw new DebuggerException("Should not call attach() for startupMode == " + startupMode); } } }