Mercurial > hg > truffle
view agent/src/share/native/jvmdi/sa.cpp @ 3237:399aa66d375e
Fixed a bug in which the valueEquals method was misused. The method does only check the equality of the node data and not full GVN equality by taking inputs and successors into account.
| author | Thomas Wuerthinger <thomas@wuerthinger.net> |
|---|---|
| date | Wed, 27 Jul 2011 14:16:38 -0700 |
| parents | c18cbe5936b8 |
| children |
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/* * Copyright (c) 2002, 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. * */ #include <stdio.h> #include <stdarg.h> #include <stdlib.h> #include <vector> #include "sa.hpp" #include "jni.h" #include "jvmdi.h" #ifndef WIN32 #include <inttypes.h> #else typedef int int32_t; #endif #ifdef WIN32 #include <windows.h> #define YIELD() Sleep(0) #define SLEEP() Sleep(10) #define vsnprintf _vsnprintf #else Error: please port YIELD() and SLEEP() macros to your platform #endif using namespace std; ////////////////////////////////////////////////////////////////////// // // // Exported "interface" for Java language-level interaction between // // the SA and the VM. Note that the SA knows about the layout of // // certain VM data structures and that knowledge is taken advantage // // of in this code, although this interfaces with the VM via JVMDI. // // // ////////////////////////////////////////////////////////////////////// extern "C" { ///////////////////////////////////// // // // Events sent by the VM to the SA // // // ///////////////////////////////////// // Set by the SA when it attaches. Indicates that events should be // posted via these exported variables, and that the VM should wait // for those events to be acknowledged by the SA (via its setting // saEventPending to 0). JNIEXPORT volatile int32_t saAttached = 0; // Set to nonzero value by the VM when an event has been posted; set // back to 0 by the SA when it has processed that event. JNIEXPORT volatile int32_t saEventPending = 0; // Kind of the event (from jvmdi.h) JNIEXPORT volatile int32_t saEventKind = 0; // // Exception events // JNIEXPORT jthread saExceptionThread; JNIEXPORT jclass saExceptionClass; JNIEXPORT jmethodID saExceptionMethod; JNIEXPORT int32_t saExceptionLocation; JNIEXPORT jobject saExceptionException; JNIEXPORT jclass saExceptionCatchClass; JNIEXPORT jmethodID saExceptionCatchMethod; JNIEXPORT int32_t saExceptionCatchLocation; // // Breakpoint events // JNIEXPORT jthread saBreakpointThread; JNIEXPORT jclass saBreakpointClass; JNIEXPORT jmethodID saBreakpointMethod; JNIEXPORT jlocation saBreakpointLocation; /////////////////////////////////////// // // // Commands sent by the SA to the VM // // // /////////////////////////////////////// extern JNIEXPORT const int32_t SA_CMD_SUSPEND_ALL = 0; extern JNIEXPORT const int32_t SA_CMD_RESUME_ALL = 1; extern JNIEXPORT const int32_t SA_CMD_TOGGLE_BREAKPOINT = 2; extern JNIEXPORT const int32_t SA_CMD_BUF_SIZE = 1024; // SA sets this to a nonzero value when it is requesting a command // to be processed; VM sets it back to 0 when the command has been // executed JNIEXPORT volatile int32_t saCmdPending = 0; // SA sets this to one of the manifest constants above to indicate // the kind of command to be executed JNIEXPORT volatile int32_t saCmdType = 0; // VM sets this to 0 if the last command succeeded or a nonzero // value if it failed JNIEXPORT volatile int32_t saCmdResult = 0; // If last command failed, this buffer will contain a descriptive // error message JNIEXPORT char saCmdResultErrMsg[SA_CMD_BUF_SIZE]; // // Toggling of breakpoint command arguments. // // Originally there were separate set/clear breakpoint commands // taking a class name, method name and signature, and the iteration // through the debug information was done in the SA. It turns out // that doing this work in the target VM is significantly faster, // and since interactivity when setting and clearing breakpoints is // important, the solution which resulted in more C/C++ code was used. // // Source file name JNIEXPORT char saCmdBkptSrcFileName[SA_CMD_BUF_SIZE]; // Package name ('/' as separator instead of '.') JNIEXPORT char saCmdBkptPkgName[SA_CMD_BUF_SIZE]; // Line number JNIEXPORT int32_t saCmdBkptLineNumber; // Output back to SA: indicator whether the last failure of a // breakpoint toggle command was really an error or just a lack of // debug information covering the requested line. 0 if not error. // Valid only if saCmdResult != 0. JNIEXPORT int32_t saCmdBkptResWasError; // Output back to SA: resulting line number at which the breakpoint // was set or cleared (valid only if saCmdResult == 0) JNIEXPORT int32_t saCmdBkptResLineNumber; // Output back to SA: resulting byte code index at which the // breakpoint was set or cleared (valid only if saCmdResult == 0) JNIEXPORT int32_t saCmdBkptResBCI; // Output back to SA: indicator whether the breakpoint operation // resulted in a set or cleared breakpoint; nonzero if set, zero if // cleared (valid only if saCmdResult == 0) JNIEXPORT int32_t saCmdBkptResWasSet; // Output back to SA: method name the breakpoint was set in (valid // only if saCmdResult == 0) JNIEXPORT char saCmdBkptResMethodName[SA_CMD_BUF_SIZE]; // Output back to SA: method signature (JNI style) the breakpoint // was set in (valid only if saCmdResult == 0) JNIEXPORT char saCmdBkptResMethodSig[SA_CMD_BUF_SIZE]; } // Internal state static JavaVM* jvm = NULL; static JVMDI_Interface_1* jvmdi = NULL; static jthread debugThreadObj = NULL; static bool suspended = false; static vector<jthread> suspendedThreads; static JVMDI_RawMonitor eventLock = NULL; class MonitorLocker { private: JVMDI_RawMonitor lock; public: MonitorLocker(JVMDI_RawMonitor lock) { this->lock = lock; if (lock != NULL) { jvmdi->RawMonitorEnter(lock); } } ~MonitorLocker() { if (lock != NULL) { jvmdi->RawMonitorExit(lock); } } }; class JvmdiDeallocator { private: void* ptr; public: JvmdiDeallocator(void* ptr) { this->ptr = ptr; } ~JvmdiDeallocator() { jvmdi->Deallocate((jbyte*) ptr); } }; class JvmdiRefListDeallocator { private: JNIEnv* env; jobject* refList; jint refCount; public: JvmdiRefListDeallocator(JNIEnv* env, jobject* refList, jint refCount) { this->env = env; this->refList = refList; this->refCount = refCount; } ~JvmdiRefListDeallocator() { for (int i = 0; i < refCount; i++) { env->DeleteGlobalRef(refList[i]); } jvmdi->Deallocate((jbyte*) refList); } }; static void stop(char* msg) { fprintf(stderr, "%s", msg); fprintf(stderr, "\n"); exit(1); } // This fills in the command result error message, sets the command // result to -1, and clears the pending command flag static void reportErrorToSA(const char* str, ...) { va_list varargs; va_start(varargs, str); vsnprintf(saCmdResultErrMsg, sizeof(saCmdResultErrMsg), str, varargs); va_end(varargs); saCmdResult = -1; saCmdPending = 0; } static bool packageNameMatches(char* clazzName, char* pkg) { int pkgLen = strlen(pkg); int clazzNameLen = strlen(clazzName); if (pkgLen >= clazzNameLen + 1) { return false; } if (strncmp(clazzName, pkg, pkgLen)) { return false; } // Ensure that '/' is the next character if non-empty package name int l = pkgLen; if (l > 0) { if (clazzName[l] != '/') { return false; } l++; } // Ensure that there are no more trailing slashes while (l < clazzNameLen) { if (clazzName[l++] == '/') { return false; } } return true; } static void executeOneCommand(JNIEnv* env) { switch (saCmdType) { case SA_CMD_SUSPEND_ALL: { if (suspended) { reportErrorToSA("Target process already suspended"); return; } // We implement this by getting all of the threads and calling // SuspendThread on each one, except for the thread object // corresponding to this thread. Each thread for which the call // succeeded (i.e., did not return JVMDI_ERROR_INVALID_THREAD) // is added to a list which is remembered for later resumption. // Note that this currently has race conditions since a thread // might be started after we call GetAllThreads and since a // thread for which we got an error earlier might be resumed by // the VM while we are busy suspending other threads. We could // solve this by looping until there are no more threads we can // suspend, but a more robust and scalable solution is to add // this functionality to the JVMDI interface (i.e., // "suspendAll"). Probably need to provide an exclude list for // such a routine. jint threadCount; jthread* threads; if (jvmdi->GetAllThreads(&threadCount, &threads) != JVMDI_ERROR_NONE) { reportErrorToSA("Error while getting thread list"); return; } for (int i = 0; i < threadCount; i++) { jthread thr = threads[i]; if (!env->IsSameObject(thr, debugThreadObj)) { jvmdiError err = jvmdi->SuspendThread(thr); if (err == JVMDI_ERROR_NONE) { // Remember this thread and do not free it suspendedThreads.push_back(thr); continue; } else { fprintf(stderr, " SA: Error %d while suspending thread\n", err); // FIXME: stop, resume all threads, report error } } env->DeleteGlobalRef(thr); } // Free up threads jvmdi->Deallocate((jbyte*) threads); // Suspension is complete suspended = true; break; } case SA_CMD_RESUME_ALL: { if (!suspended) { reportErrorToSA("Target process already suspended"); return; } saCmdResult = 0; bool errorOccurred = false; jvmdiError firstError; for (int i = 0; i < suspendedThreads.size(); i++) { jthread thr = suspendedThreads[i]; jvmdiError err = jvmdi->ResumeThread(thr); env->DeleteGlobalRef(thr); if (err != JVMDI_ERROR_NONE) { if (!errorOccurred) { errorOccurred = true; firstError = err; } } } suspendedThreads.clear(); suspended = false; if (errorOccurred) { reportErrorToSA("Error %d while resuming threads", firstError); return; } break; } case SA_CMD_TOGGLE_BREAKPOINT: { saCmdBkptResWasError = 1; // Search line number info for all loaded classes jint classCount; jclass* classes; jvmdiError glcRes = jvmdi->GetLoadedClasses(&classCount, &classes); if (glcRes != JVMDI_ERROR_NONE) { reportErrorToSA("Error %d while getting loaded classes", glcRes); return; } JvmdiRefListDeallocator rld(env, (jobject*) classes, classCount); bool done = false; bool gotOne = false; jclass targetClass; jmethodID targetMethod; jlocation targetLocation; jint targetLineNumber; for (int i = 0; i < classCount && !done; i++) { fflush(stderr); jclass clazz = classes[i]; char* srcName; jvmdiError sfnRes = jvmdi->GetSourceFileName(clazz, &srcName); if (sfnRes == JVMDI_ERROR_NONE) { JvmdiDeallocator de1(srcName); if (!strcmp(srcName, saCmdBkptSrcFileName)) { // Got a match. Now see whether the package name of the class also matches char* clazzName; jvmdiError sigRes = jvmdi->GetClassSignature(clazz, &clazzName); if (sigRes != JVMDI_ERROR_NONE) { reportErrorToSA("Error %d while getting a class's signature", sigRes); return; } JvmdiDeallocator de2(clazzName); if (packageNameMatches(clazzName + 1, saCmdBkptPkgName)) { // Iterate through all methods jint methodCount; jmethodID* methods; if (jvmdi->GetClassMethods(clazz, &methodCount, &methods) != JVMDI_ERROR_NONE) { reportErrorToSA("Error while getting methods of class %s", clazzName); return; } JvmdiDeallocator de3(methods); for (int j = 0; j < methodCount && !done; j++) { jmethodID m = methods[j]; jint entryCount; JVMDI_line_number_entry* table; jvmdiError lnRes = jvmdi->GetLineNumberTable(clazz, m, &entryCount, &table); if (lnRes == JVMDI_ERROR_NONE) { JvmdiDeallocator de4(table); // Look for line number greater than or equal to requested line for (int k = 0; k < entryCount && !done; k++) { JVMDI_line_number_entry& entry = table[k]; if (entry.line_number >= saCmdBkptLineNumber && (!gotOne || entry.line_number < targetLineNumber)) { gotOne = true; targetClass = clazz; targetMethod = m; targetLocation = entry.start_location; targetLineNumber = entry.line_number; done = (targetLineNumber == saCmdBkptLineNumber); } } } else if (lnRes != JVMDI_ERROR_ABSENT_INFORMATION) { reportErrorToSA("Unexpected error %d while fetching line number table", lnRes); return; } } } } } else if (sfnRes != JVMDI_ERROR_ABSENT_INFORMATION) { reportErrorToSA("Unexpected error %d while fetching source file name", sfnRes); return; } } bool wasSet = true; if (gotOne) { // Really toggle this breakpoint jvmdiError bpRes; bpRes = jvmdi->SetBreakpoint(targetClass, targetMethod, targetLocation); if (bpRes == JVMDI_ERROR_DUPLICATE) { bpRes = jvmdi->ClearBreakpoint(targetClass, targetMethod, targetLocation); wasSet = false; } if (bpRes != JVMDI_ERROR_NONE) { reportErrorToSA("Unexpected error %d while setting or clearing breakpoint at bci %d, line %d", bpRes, targetLocation, targetLineNumber); return; } } else { saCmdBkptResWasError = 0; reportErrorToSA("No debug information found covering this line"); return; } // Provide result saCmdBkptResLineNumber = targetLineNumber; saCmdBkptResBCI = targetLocation; saCmdBkptResWasSet = (wasSet ? 1 : 0); { char* methodName; char* methodSig; if (jvmdi->GetMethodName(targetClass, targetMethod, &methodName, &methodSig) == JVMDI_ERROR_NONE) { JvmdiDeallocator mnd(methodName); JvmdiDeallocator msd(methodSig); strncpy(saCmdBkptResMethodName, methodName, SA_CMD_BUF_SIZE); strncpy(saCmdBkptResMethodSig, methodSig, SA_CMD_BUF_SIZE); } else { strncpy(saCmdBkptResMethodName, "<error>", SA_CMD_BUF_SIZE); strncpy(saCmdBkptResMethodSig, "<error>", SA_CMD_BUF_SIZE); } } break; } default: reportErrorToSA("Command %d not yet supported", saCmdType); return; } // Successful command execution saCmdResult = 0; saCmdPending = 0; } static void saCommandThread(void *arg) { JNIEnv* env = NULL; if (jvm->GetEnv((void **) &env, JNI_VERSION_1_2) != JNI_OK) { stop("Error while starting Serviceability Agent " "command thread: could not get JNI environment"); } while (1) { // Wait for command while (!saCmdPending) { SLEEP(); } executeOneCommand(env); } } static void saEventHook(JNIEnv *env, JVMDI_Event *event) { MonitorLocker ml(eventLock); saEventKind = event->kind; if (event->kind == JVMDI_EVENT_VM_INIT) { // Create event lock if (jvmdi->CreateRawMonitor("Serviceability Agent Event Lock", &eventLock) != JVMDI_ERROR_NONE) { stop("Unable to create Serviceability Agent's event lock"); } // Start thread which receives commands from the SA. jclass threadClass = env->FindClass("java/lang/Thread"); if (threadClass == NULL) stop("Unable to find class java/lang/Thread"); jstring threadName = env->NewStringUTF("Serviceability Agent Command Thread"); if (threadName == NULL) stop("Unable to allocate debug thread name"); jmethodID ctor = env->GetMethodID(threadClass, "<init>", "(Ljava/lang/String;)V"); if (ctor == NULL) stop("Unable to find appropriate constructor for java/lang/Thread"); // Allocate thread object jthread thr = (jthread) env->NewObject(threadClass, ctor, threadName); if (thr == NULL) stop("Unable to allocate debug thread's java/lang/Thread instance"); // Remember which thread this is debugThreadObj = env->NewGlobalRef(thr); if (debugThreadObj == NULL) stop("Unable to allocate global ref for debug thread object"); // Start thread jvmdiError err; if ((err = jvmdi->RunDebugThread(thr, &saCommandThread, NULL, JVMDI_THREAD_NORM_PRIORITY)) != JVMDI_ERROR_NONE) { char buf[256]; sprintf(buf, "Error %d while starting debug thread", err); stop(buf); } // OK, initialization is done return; } if (!saAttached) { return; } switch (event->kind) { case JVMDI_EVENT_EXCEPTION: { fprintf(stderr, "SA: Exception thrown -- ignoring\n"); saExceptionThread = event->u.exception.thread; saExceptionClass = event->u.exception.clazz; saExceptionMethod = event->u.exception.method; saExceptionLocation = event->u.exception.location; saExceptionException = event->u.exception.exception; saExceptionCatchClass = event->u.exception.catch_clazz; saExceptionCatchClass = event->u.exception.catch_clazz; saExceptionCatchMethod = event->u.exception.catch_method; saExceptionCatchLocation = event->u.exception.catch_location; // saEventPending = 1; break; } case JVMDI_EVENT_BREAKPOINT: { saBreakpointThread = event->u.breakpoint.thread; saBreakpointClass = event->u.breakpoint.clazz; saBreakpointMethod = event->u.breakpoint.method; saBreakpointLocation = event->u.breakpoint.location; saEventPending = 1; break; } default: break; } while (saAttached && saEventPending) { SLEEP(); } } extern "C" { JNIEXPORT jint JNICALL JVM_OnLoad(JavaVM *vm, char *options, void *reserved) { jvm = vm; if (jvm->GetEnv((void**) &jvmdi, JVMDI_VERSION_1) != JNI_OK) { return -1; } if (jvmdi->SetEventHook(&saEventHook) != JVMDI_ERROR_NONE) { return -1; } return 0; } };