/* * Copyright (c) 2002, 2012, 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.debugger.proc; import java.io.*; import java.net.*; import java.util.*; import java.lang.reflect.*; import sun.jvm.hotspot.debugger.*; import sun.jvm.hotspot.debugger.cdbg.*; import sun.jvm.hotspot.debugger.proc.amd64.*; import sun.jvm.hotspot.debugger.proc.sparc.*; import sun.jvm.hotspot.debugger.proc.x86.*; import sun.jvm.hotspot.debugger.amd64.*; import sun.jvm.hotspot.debugger.sparc.*; import sun.jvm.hotspot.debugger.x86.*; import sun.jvm.hotspot.utilities.*; /**
An implementation of the JVMDebugger interface which sits on * top of proc and relies on the SA's proc import module for * communication with the debugger.
* *NOTE that since we have the notion of fetching "Java * primitive types" from the remote process (which might have * different sizes than we expect) we have a bootstrapping * problem. We need to know the sizes of these types before we can * fetch them. The current implementation solves this problem by * requiring that it be configured with these type sizes before they * can be fetched. The readJ(Type) routines here will throw a * RuntimeException if they are called before the debugger is * configured with the Java primitive type sizes.
*/ public class ProcDebuggerLocal extends DebuggerBase implements ProcDebugger { protected static final int cacheSize = 16 * 1024 * 1024; // 16 MB //------------------------------------------------------------------------ // Implementation of Debugger interface // /**machDesc may be null if it couldn't be determined yet; i.e., * if we're on SPARC, we need to ask the remote process whether * we're in 32- or 64-bit mode.
* *useCache should be set to true if debugging is being done * locally, and to false if the debugger is being created for the * purpose of supporting remote debugging.
*/ public ProcDebuggerLocal(MachineDescription machDesc, boolean useCache) { this.machDesc = machDesc; int cacheNumPages; int cachePageSize; final String cpu = PlatformInfo.getCPU(); if (cpu.equals("sparc")) { threadFactory = new ProcSPARCThreadFactory(this); pcRegIndex = SPARCThreadContext.R_PC; fpRegIndex = SPARCThreadContext.R_I6; } else if (cpu.equals("x86")) { threadFactory = new ProcX86ThreadFactory(this); pcRegIndex = X86ThreadContext.EIP; fpRegIndex = X86ThreadContext.EBP; unalignedAccessesOkay = true; } else if (cpu.equals("amd64") || cpu.equals("x86_64")) { threadFactory = new ProcAMD64ThreadFactory(this); pcRegIndex = AMD64ThreadContext.RIP; fpRegIndex = AMD64ThreadContext.RBP; } else { try { Class tfc = Class.forName("sun.jvm.hotspot.debugger.proc." + cpu.toLowerCase() + ".Proc" + cpu.toUpperCase() + "ThreadFactory"); Constructor[] ctfc = tfc.getConstructors(); threadFactory = (ProcThreadFactory)ctfc[0].newInstance(this); } catch (Exception e) { throw new RuntimeException("Thread access for CPU architecture " + PlatformInfo.getCPU() + " not yet supported"); // Note: pcRegIndex and fpRegIndex do not appear to be referenced } } if (useCache) { // Cache portion of the remote process's address space. // For now, this cache works best if it covers the entire // heap of the remote process. FIXME: at least should make this // tunable from the outside, i.e., via the UI. This is a 16 MB // cache divided on SPARC into 2048 8K pages and on x86 into // 4096 4K pages; the page size must be adjusted to be the OS's // page size. cachePageSize = getPageSize(); cacheNumPages = parseCacheNumPagesProperty(cacheSize / cachePageSize); initCache(cachePageSize, cacheNumPages); } resetNativePointers(); clearCacheFields(); } /** FIXME: implement this with a Runtime.exec() of ps followed by * parsing of its output */ public boolean hasProcessList() throws DebuggerException { return false; } public List getProcessList() throws DebuggerException { throw new DebuggerException("Not yet supported"); } /** From the Debugger interface via JVMDebugger */ public synchronized void attach(int processID) throws DebuggerException { checkAttached(); isCore = false; attach0(new Integer(processID).toString()); attached = true; suspended = true; } /** From the Debugger interface via JVMDebugger */ public synchronized void attach (String executableName, String coreFileName) throws DebuggerException { checkAttached(); isCore = true; topFrameCache = new HashMap(); attach0(executableName, coreFileName); attached = true; suspended = true; } /** From the Debugger interface via JVMDebugger */ public synchronized boolean detach() { if (! attached) { return false; } try { if (p_ps_prochandle == 0L) { return false; } detach0(); clearCache(); return true; } catch (Exception e) { e.printStackTrace(); return false; } finally { resetNativePointers(); clearCacheFields(); suspended = false; attached = false; } } public synchronized void suspend() throws DebuggerException { requireAttach(); if (suspended) { throw new DebuggerException("Process already suspended"); } suspend0(); suspended = true; enableCache(); reresolveLoadObjects(); } public synchronized void resume() throws DebuggerException { requireAttach(); if (!suspended) { throw new DebuggerException("Process not suspended"); } resume0(); disableCache(); suspended = false; } public synchronized boolean isSuspended() throws DebuggerException { requireAttach(); return suspended; } /** From the Debugger interface via JVMDebugger */ public Address parseAddress(String addressString) throws NumberFormatException { long addr = utils.scanAddress(addressString); if (addr == 0) { return null; } return new ProcAddress(this, addr); } /** From the Debugger interface via JVMDebugger */ public String getOS() { return PlatformInfo.getOS(); } /** From the Debugger interface via JVMDebugger */ public String getCPU() { return PlatformInfo.getCPU(); } public boolean hasConsole() throws DebuggerException { return false; } public String consoleExecuteCommand(String cmd) throws DebuggerException { throw new DebuggerException("Can't execute console commands"); } public String getConsolePrompt() throws DebuggerException { return ""; } public CDebugger getCDebugger() throws DebuggerException { if (cdbg == null) { cdbg = new ProcCDebugger(this); } return cdbg; } /** From the SymbolLookup interface via Debugger and JVMDebugger */ public synchronized Address lookup(String objectName, String symbol) { requireAttach(); long addr = lookupByName0(objectName, symbol); if (addr == 0) { return null; } return new ProcAddress(this, addr); } /** From the SymbolLookup interface via Debugger and JVMDebugger */ public synchronized OopHandle lookupOop(String objectName, String symbol) { Address addr = lookup(objectName, symbol); if (addr == null) { return null; } return addr.addOffsetToAsOopHandle(0); } /** From the ProcDebugger interface */ public MachineDescription getMachineDescription() { return machDesc; } /** Internal routine supporting lazy setting of MachineDescription, * since on SPARC we will need to query the remote process to ask * it what its data model is (32- or 64-bit). */ public void setMachineDescription(MachineDescription machDesc) { this.machDesc = machDesc; setBigEndian(machDesc.isBigEndian()); utils = new DebuggerUtilities(machDesc.getAddressSize(), machDesc.isBigEndian()); } public synchronized int getRemoteProcessAddressSize() throws DebuggerException { requireAttach(); return getRemoteProcessAddressSize0(); } //-------------------------------------------------------------------------------- // Implementation of ThreadAccess interface // /** From the ThreadAccess interface via Debugger and JVMDebugger */ public ThreadProxy getThreadForIdentifierAddress(Address addr) { return threadFactory.createThreadWrapper(addr); } public ThreadProxy getThreadForThreadId(long id) { return threadFactory.createThreadWrapper(id); } //---------------------------------------------------------------------- // Overridden from DebuggerBase because we need to relax alignment // constraints on x86 public long readJLong(long address) throws UnmappedAddressException, UnalignedAddressException { checkJavaConfigured(); // FIXME: allow this to be configurable. Undesirable to add a // dependency on the runtime package here, though, since this // package should be strictly underneath it. if (unalignedAccessesOkay) { utils.checkAlignment(address, jintSize); } else { utils.checkAlignment(address, jlongSize); } byte[] data = readBytes(address, jlongSize); return utils.dataToJLong(data, jlongSize); } //-------------------------------------------------------------------------------- // Internal routines (for implementation of ProcAddress). // These must not be called until the MachineDescription has been set up. // /** From the ProcDebugger interface */ public String addressValueToString(long address) { return utils.addressValueToString(address); } /** Need to override this to relax alignment checks on Solaris/x86. */ public long readCInteger(long address, long numBytes, boolean isUnsigned) throws UnmappedAddressException, UnalignedAddressException { checkConfigured(); if (!unalignedAccessesOkay) { utils.checkAlignment(address, numBytes); } else { // Only slightly relaxed semantics -- this is a hack, but is // necessary on Solaris/x86 where it seems the compiler is // putting some global 64-bit data on 32-bit boundaries if (numBytes == 8) { utils.checkAlignment(address, 4); } else { utils.checkAlignment(address, numBytes); } } byte[] data = readBytes(address, numBytes); return utils.dataToCInteger(data, isUnsigned); } /** From the ProcDebugger interface */ public ProcAddress readAddress(long address) throws UnmappedAddressException, UnalignedAddressException { long value = readAddressValue(address); return (value == 0 ? null : new ProcAddress(this, value)); } public ProcAddress readCompOopAddress(long address) throws UnmappedAddressException, UnalignedAddressException { long value = readCompOopAddressValue(address); return (value == 0 ? null : new ProcAddress(this, value)); } /** From the ProcDebugger interface */ public ProcOopHandle readOopHandle(long address) throws UnmappedAddressException, UnalignedAddressException, NotInHeapException { long value = readAddressValue(address); return (value == 0 ? null : new ProcOopHandle(this, value)); } public ProcOopHandle readCompOopHandle(long address) { long value = readCompOopAddressValue(address); return (value == 0 ? null : new ProcOopHandle(this, value)); } public void writeBytesToProcess(long address, long numBytes, byte[] data) throws UnmappedAddressException, DebuggerException { if (isCore) { throw new DebuggerException("Attached to a core file!"); } writeBytesToProcess0(address, numBytes, data); } public synchronized ReadResult readBytesFromProcess(long address, long numBytes) throws DebuggerException { requireAttach(); byte[] res = readBytesFromProcess0(address, numBytes); if(res != null) return new ReadResult(res); else return new ReadResult(address); } protected int getPageSize() { int pagesize = getPageSize0(); if (pagesize == -1) { // return the hard coded default value. if (PlatformInfo.getCPU().equals("sparc") || PlatformInfo.getCPU().equals("amd64") ) pagesize = 8196; else pagesize = 4096; } return pagesize; } //-------------------------------------------------------------------------------- // Thread context access. Can not be package private, but should // only be accessed by the architecture-specific subpackages. /** From the ProcDebugger interface. May have to redefine this later. */ public synchronized long[] getThreadIntegerRegisterSet(int tid) { requireAttach(); return getThreadIntegerRegisterSet0(tid); } //-------------------------------------------------------------------------------- // Address access. Can not be package private, but should only be // accessed by the architecture-specific subpackages. /** From the ProcDebugger interface */ public long getAddressValue(Address addr) { if (addr == null) return 0; return ((ProcAddress) addr).getValue(); } /** From the ProcDebugger interface */ public Address newAddress(long value) { if (value == 0) return null; return new ProcAddress(this, value); } /** From the ProcDebugger interface */ public synchronized List getThreadList() throws DebuggerException { requireAttach(); List res = null; if (isCore && (threadListCache != null)) { res = threadListCache; } else { res = new ArrayList(); fillThreadList0(res); if (isCore) { threadListCache = res; } } return res; } /** From the ProcDebugger interface */ public synchronized List getLoadObjectList() throws DebuggerException { requireAttach(); if (!suspended) { throw new DebuggerException("Process not suspended"); } if (loadObjectCache == null) { updateLoadObjectCache(); } return loadObjectCache; } /** From the ProcDebugger interface */ public synchronized CFrame topFrameForThread(ThreadProxy thread) throws DebuggerException { requireAttach(); CFrame res = null; if (isCore && ((res = (CFrame) topFrameCache.get(thread)) != null)) { return res; } else { ThreadContext context = thread.getContext(); int numRegs = context.getNumRegisters(); long[] regs = new long[numRegs]; for (int i = 0; i < numRegs; i++) { regs[i] = context.getRegister(i); } res = fillCFrameList0(regs); if (isCore) { topFrameCache.put(thread, res); } return res; } } /** From the ProcDebugger interface */ public synchronized ClosestSymbol lookup(long address) { requireAttach(); return lookupByAddress0(address); } /** From the ProcDebugger interface */ public String demangle(String name) { return demangle0(name); } //------------- Internals only below this point -------------------- // // private void updateLoadObjectCache() { List res = new ArrayList(); nameToDsoMap = new HashMap(); fillLoadObjectList0(res); loadObjectCache = sortLoadObjects(res); } // sort load objects by base address private static List sortLoadObjects(List in) { // sort the list by base address Object[] arr = in.toArray(); Arrays.sort(arr, loadObjectComparator); return Arrays.asList(arr); } private long lookupByName(String objectName, String symbolName) throws DebuggerException { // NOTE: this assumes that process is suspended (which is probably // necessary assumption given that DSOs can be loaded/unloaded as // process runs). Should update documentation. if (nameToDsoMap == null) { getLoadObjectList(); } SharedObject dso = (SharedObject) nameToDsoMap.get(objectName); // The DSO can be null because we use this to search through known // DSOs in HotSpotTypeDataBase (for example) if (dso != null) { ProcAddress addr = (ProcAddress) dso.lookupSymbol(symbolName); if (addr != null) { return addr.getValue(); } } return 0; } private SharedObject findDSOByName(String fullPathName) { if (loadObjectCache == null) return null; for (Iterator iter = loadObjectCache.iterator(); iter.hasNext(); ) { SharedObject dso = (SharedObject) iter.next(); if (dso.getName().equals(fullPathName)) { return dso; } } return null; } private void reresolveLoadObjects() throws DebuggerException { if (loadObjectCache == null) { return; } updateLoadObjectCache(); } private void checkAttached() { if (attached) { if (isCore) { throw new DebuggerException("already attached to a core file!"); } else { throw new DebuggerException("already attached to a process!"); } } } private void requireAttach() { if (! attached) { throw new RuntimeException("not attached to a process or core file!"); } } private void clearCacheFields() { loadObjectCache = null; nameToDsoMap = null; threadListCache = null; topFrameCache = null; } private void resetNativePointers() { p_ps_prochandle = 0L; // reset thread_db pointers libthread_db_handle = 0L; p_td_thragent_t = 0L; p_td_init = 0L; p_td_ta_new = 0L; p_td_ta_delete = 0L; p_td_ta_thr_iter = 0L; p_td_thr_get_info = 0L; p_td_ta_map_id2thr = 0L; p_td_thr_getgregs = 0L; // part of class sharing workaround classes_jsa_fd = -1; p_file_map_header = 0L; } // native methods and native helpers // attach, detach private native void attach0(String pid) throws DebuggerException; private native void attach0(String executableFile, String coreFileName) throws DebuggerException; private native void detach0() throws DebuggerException; // address size, page size private native int getRemoteProcessAddressSize0() throws DebuggerException; private native int getPageSize0() throws DebuggerException; // threads, stacks private native long[] getThreadIntegerRegisterSet0(long tid) throws DebuggerException; private native void fillThreadList0(List l) throws DebuggerException; // fills stack frame list given reg set of the top frame and top frame private native ProcCFrame fillCFrameList0(long[] regs) throws DebuggerException; // helper called by fillCFrameList0 private ProcCFrame createSenderFrame(ProcCFrame f, long pc, long fp) { ProcCFrame sender = new ProcCFrame(this, newAddress(pc), newAddress(fp)); if (f != null) { f.setSender(sender); } return sender; } // shared objects private native void fillLoadObjectList0(List l) throws DebuggerException; // helper called by fillLoadObjectList0 private LoadObject createLoadObject(String fileName, long textsize, long base) { File f = new File(fileName); Address baseAddr = newAddress(base); SharedObject res = findDSOByName(fileName); if (res != null) { // already in cache. just change the base, if needed Address oldBase = res.getBase(); if (! baseAddr.equals(oldBase)) { res.setBase(baseAddr); } } else { // new shared object. res = new SharedObject(this, fileName, f.length(), baseAddr); } nameToDsoMap.put(f.getName(), res); return res; } // symbol-to-pc private native long lookupByName0(String objectName, String symbolName) throws DebuggerException; private native ClosestSymbol lookupByAddress0(long address) throws DebuggerException; // helper called by lookupByAddress0 private ClosestSymbol createClosestSymbol(String name, long offset) { return new ClosestSymbol(name, offset); } // process read/write private native byte[] readBytesFromProcess0(long address, long numBytes) throws DebuggerException; private native void writeBytesToProcess0(long address, long numBytes, byte[] data) throws DebuggerException; // process control private native void suspend0() throws DebuggerException; private native void resume0() throws DebuggerException; // demangle a C++ name private native String demangle0(String name); // init JNI ids to fields, methods private native static void initIDs() throws DebuggerException; private static LoadObjectComparator loadObjectComparator; static { System.loadLibrary("saproc"); initIDs(); loadObjectComparator = new LoadObjectComparator(); } private boolean unalignedAccessesOkay; private ProcThreadFactory threadFactory; // indices of PC and FP registers in gregset private int pcRegIndex; private int fpRegIndex; // Symbol lookup support // This is a map of library names to DSOs private Map nameToDsoMap; // Map