/* * @(#)hprof_util.c 1.57 06/01/28 * * Copyright (c) 2006 Sun Microsystems, Inc. All Rights Reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * -Redistribution of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * -Redistribution in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * Neither the name of Sun Microsystems, Inc. or the names of contributors may * be used to endorse or promote products derived from this software without * specific prior written permission. * * This software is provided "AS IS," without a warranty of any kind. ALL * EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND WARRANTIES, INCLUDING * ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE * OR NON-INFRINGEMENT, ARE HEREBY EXCLUDED. SUN MIDROSYSTEMS, INC. ("SUN") * AND ITS LICENSORS SHALL NOT BE LIABLE FOR ANY DAMAGES SUFFERED BY LICENSEE * AS A RESULT OF USING, MODIFYING OR DISTRIBUTING THIS SOFTWARE OR ITS * DERIVATIVES. IN NO EVENT WILL SUN OR ITS LICENSORS BE LIABLE FOR ANY LOST * REVENUE, PROFIT OR DATA, OR FOR DIRECT, INDIRECT, SPECIAL, CONSEQUENTIAL, * INCIDENTAL OR PUNITIVE DAMAGES, HOWEVER CAUSED AND REGARDLESS OF THE THEORY * OF LIABILITY, ARISING OUT OF THE USE OF OR INABILITY TO USE THIS SOFTWARE, * EVEN IF SUN HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. * * You acknowledge that this software is not designed, licensed or intended * for use in the design, construction, operation or maintenance of any * nuclear facility. */ /* General utility functions. */ /* * Wrappers over JVM, JNI, and JVMTI functions are placed here. * * All memory allocation and deallocation goes through jvmtiAllocate() * and jvmtiDeallocate(). * */ #include "hprof.h" /* Macro to get JNI function pointer. */ #define JNI_FUNC_PTR(env,f) (*((*(env))->f)) /* Macro to get JVM function pointer. */ #define JVM_FUNC_PTR(env,f) (*((*(env))->f)) /* Macro to get JVMTI function pointer. */ #define JVMTI_FUNC_PTR(env,f) (*((*(env))->f)) /* ------------------------------------------------------------------- */ /* JVM functions */ JNIEnv * getEnv(void) { JNIEnv *env; jint res; res = JVM_FUNC_PTR(gdata->jvm,GetEnv) (gdata->jvm, (void **)&env, JNI_VERSION_1_2); if (res != JNI_OK) { char buf[256]; (void)md_snprintf(buf, sizeof(buf), "Unable to access JNI Version 1.2 (0x%x)," " is your JDK a 5.0 or newer version?" " JNIEnv's GetEnv() returned %d", JNI_VERSION_1_2, res); buf[sizeof(buf)-1] = 0; HPROF_ERROR(JNI_FALSE, buf); error_exit_process(1); /* Kill entire process, no core dump */ } return env; } /* ------------------------------------------------------------------- */ /* Memory Allocation */ void * jvmtiAllocate(int size) { jvmtiError error; unsigned char *ptr; HPROF_ASSERT(size>=0); ptr = NULL; if ( size == 0 ) { return ptr; } error = JVMTI_FUNC_PTR(gdata->jvmti,Allocate) (gdata->jvmti, (jlong)size, &ptr); if ( error != JVMTI_ERROR_NONE || ptr == NULL ) { HPROF_JVMTI_ERROR(error, "Cannot allocate jvmti memory"); } return (void*)ptr; } void jvmtiDeallocate(void *ptr) { if ( ptr != NULL ) { jvmtiError error; error = JVMTI_FUNC_PTR(gdata->jvmti,Deallocate) (gdata->jvmti, (unsigned char*)ptr); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot deallocate jvmti memory"); } } } #ifdef DEBUG void * hprof_debug_malloc(int size, char *file, int line) { void *ptr; HPROF_ASSERT(size>0); rawMonitorEnter(gdata->debug_malloc_lock); { ptr = debug_malloc(size, file, line); } rawMonitorExit(gdata->debug_malloc_lock); if ( ptr == NULL ) { HPROF_ERROR(JNI_TRUE, "Cannot allocate malloc memory"); } return ptr; } void hprof_debug_free(void *ptr, char *file, int line) { HPROF_ASSERT(ptr!=NULL); rawMonitorEnter(gdata->debug_malloc_lock); { (void)debug_free(ptr, file, line); } rawMonitorExit(gdata->debug_malloc_lock); } #endif void * hprof_malloc(int size) { void *ptr; HPROF_ASSERT(size>0); ptr = malloc(size); if ( ptr == NULL ) { HPROF_ERROR(JNI_TRUE, "Cannot allocate malloc memory"); } return ptr; } void hprof_free(void *ptr) { HPROF_ASSERT(ptr!=NULL); (void)free(ptr); } /* ------------------------------------------------------------------- */ /* JVMTI Version functions */ jint jvmtiVersion(void) { if (gdata->cachedJvmtiVersion == 0) { jvmtiError error; error = JVMTI_FUNC_PTR(gdata->jvmti,GetVersionNumber) (gdata->jvmti, &(gdata->cachedJvmtiVersion)); if (error != JVMTI_ERROR_NONE) { HPROF_JVMTI_ERROR(error, "Cannot get jvmti version number"); } } return gdata->cachedJvmtiVersion; } static jint jvmtiMajorVersion(void) { return (jvmtiVersion() & JVMTI_VERSION_MASK_MAJOR) >> JVMTI_VERSION_SHIFT_MAJOR; } static jint jvmtiMinorVersion(void) { return (jvmtiVersion() & JVMTI_VERSION_MASK_MINOR) >> JVMTI_VERSION_SHIFT_MINOR; } static jint jvmtiMicroVersion(void) { return (jvmtiVersion() & JVMTI_VERSION_MASK_MICRO) >> JVMTI_VERSION_SHIFT_MICRO; } /* Logic to determine JVMTI version compatibility */ static jboolean compatible_versions(jint major_runtime, jint minor_runtime, jint major_compiletime, jint minor_compiletime) { /* Runtime major version must match. */ if ( major_runtime != major_compiletime ) { return JNI_FALSE; } /* Runtime minor version must be >= the version compiled with. */ if ( minor_runtime < minor_compiletime ) { return JNI_FALSE; } /* Assumed compatible */ return JNI_TRUE; } /* ------------------------------------------------------------------- */ /* JVMTI Raw Monitor support functions */ jrawMonitorID createRawMonitor(const char *str) { jvmtiError error; jrawMonitorID m; m = NULL; error = JVMTI_FUNC_PTR(gdata->jvmti,CreateRawMonitor) (gdata->jvmti, str, &m); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot create raw monitor"); } return m; } void rawMonitorEnter(jrawMonitorID m) { jvmtiError error; error = JVMTI_FUNC_PTR(gdata->jvmti,RawMonitorEnter) (gdata->jvmti, m); if ( error == JVMTI_ERROR_WRONG_PHASE ) { /* Treat this as ok, after agent shutdown CALLBACK code may call this */ error = JVMTI_ERROR_NONE; } if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot enter with raw monitor"); } } void rawMonitorWait(jrawMonitorID m, jlong pause_time) { jvmtiError error; error = JVMTI_FUNC_PTR(gdata->jvmti,RawMonitorWait) (gdata->jvmti, m, pause_time); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot wait with raw monitor"); } } void rawMonitorNotifyAll(jrawMonitorID m) { jvmtiError error; error = JVMTI_FUNC_PTR(gdata->jvmti,RawMonitorNotifyAll) (gdata->jvmti, m); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot notify all with raw monitor"); } } void rawMonitorExit(jrawMonitorID m) { jvmtiError error; error = JVMTI_FUNC_PTR(gdata->jvmti,RawMonitorExit) (gdata->jvmti, m); if ( error == JVMTI_ERROR_WRONG_PHASE ) { /* Treat this as ok, after agent shutdown CALLBACK code may call this */ error = JVMTI_ERROR_NONE; } if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot exit with raw monitor"); } } void destroyRawMonitor(jrawMonitorID m) { jvmtiError error; error = JVMTI_FUNC_PTR(gdata->jvmti,DestroyRawMonitor) (gdata->jvmti, m); if ( error == JVMTI_ERROR_WRONG_PHASE ) { /* Treat this as ok */ error = JVMTI_ERROR_NONE; } if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot destroy raw monitor"); } } /* ------------------------------------------------------------------- */ /* JVMTI Event enabling/disabilin */ void setEventNotificationMode(jvmtiEventMode mode, jvmtiEvent event, jthread thread) { jvmtiError error; error = JVMTI_FUNC_PTR(gdata->jvmti,SetEventNotificationMode) (gdata->jvmti, mode, event, thread); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot set event notification"); } } /* ---------------------------------------------------------------------- */ /* JNI Support Functions */ jobject exceptionOccurred(JNIEnv *env) { return JNI_FUNC_PTR(env,ExceptionOccurred)(env); } void exceptionDescribe(JNIEnv *env) { JNI_FUNC_PTR(env,ExceptionDescribe)(env); } void exceptionClear(JNIEnv *env) { JNI_FUNC_PTR(env,ExceptionClear)(env); } jobject newGlobalReference(JNIEnv *env, jobject object) { jobject gref; HPROF_ASSERT(env!=NULL); HPROF_ASSERT(object!=NULL); gref = JNI_FUNC_PTR(env,NewGlobalRef)(env, object); HPROF_ASSERT(gref!=NULL); return gref; } jobject newWeakGlobalReference(JNIEnv *env, jobject object) { jobject gref; HPROF_ASSERT(env!=NULL); HPROF_ASSERT(object!=NULL); gref = JNI_FUNC_PTR(env,NewWeakGlobalRef)(env, object); HPROF_ASSERT(gref!=NULL); return gref; } void deleteGlobalReference(JNIEnv *env, jobject object) { HPROF_ASSERT(env!=NULL); HPROF_ASSERT(object!=NULL); JNI_FUNC_PTR(env,DeleteGlobalRef)(env, object); } jobject newLocalReference(JNIEnv *env, jobject object) { jobject lref; HPROF_ASSERT(env!=NULL); HPROF_ASSERT(object!=NULL); lref = JNI_FUNC_PTR(env,NewLocalRef)(env, object); /* Possible for a non-null weak reference to return a NULL localref */ return lref; } void deleteLocalReference(JNIEnv *env, jobject object) { HPROF_ASSERT(env!=NULL); HPROF_ASSERT(object!=NULL); JNI_FUNC_PTR(env,DeleteLocalRef)(env, object); } void deleteWeakGlobalReference(JNIEnv *env, jobject object) { HPROF_ASSERT(env!=NULL); HPROF_ASSERT(object!=NULL); JNI_FUNC_PTR(env,DeleteWeakGlobalRef)(env, object); } jclass getObjectClass(JNIEnv *env, jobject object) /* WARNING: Must be called inside WITH_LOCAL_REFS */ { jclass clazz; HPROF_ASSERT(env!=NULL); HPROF_ASSERT(object!=NULL); clazz = JNI_FUNC_PTR(env,GetObjectClass)(env, object); HPROF_ASSERT(clazz!=NULL); return clazz; } jclass getSuperclass(JNIEnv *env, jclass klass) /* WARNING: Must be called inside WITH_LOCAL_REFS */ { jclass super_klass; HPROF_ASSERT(env!=NULL); HPROF_ASSERT(klass!=NULL); super_klass = JNI_FUNC_PTR(env,GetSuperclass)(env, klass); return super_klass; } jmethodID getStaticMethodID(JNIEnv *env, jclass clazz, const char *name, const char *sig) { jmethodID method; HPROF_ASSERT(env!=NULL); HPROF_ASSERT(clazz!=NULL); HPROF_ASSERT(name!=NULL); HPROF_ASSERT(sig!=NULL); CHECK_EXCEPTIONS(env) { method = JNI_FUNC_PTR(env,GetStaticMethodID)(env, clazz, name, sig); } END_CHECK_EXCEPTIONS; HPROF_ASSERT(method!=NULL); return method; } jmethodID getMethodID(JNIEnv *env, jclass clazz, const char *name, const char *sig) { jmethodID method; jobject exception; HPROF_ASSERT(env!=NULL); HPROF_ASSERT(clazz!=NULL); HPROF_ASSERT(name!=NULL); HPROF_ASSERT(sig!=NULL); method = JNI_FUNC_PTR(env,GetMethodID)(env, clazz, name, sig); /* Might be a static method */ exception = JNI_FUNC_PTR(env,ExceptionOccurred)(env); if ( exception != NULL ) { JNI_FUNC_PTR(env,ExceptionClear)(env); method = getStaticMethodID(env, clazz, name, sig); } HPROF_ASSERT(method!=NULL); return method; } jclass findClass(JNIEnv *env, const char *name) /* WARNING: Must be called inside WITH_LOCAL_REFS */ { jclass clazz; HPROF_ASSERT(env!=NULL); HPROF_ASSERT(name!=NULL); LOG2("FindClass", name); CHECK_EXCEPTIONS(env) { clazz = JNI_FUNC_PTR(env,FindClass)(env, name); } END_CHECK_EXCEPTIONS; HPROF_ASSERT(clazz!=NULL); return clazz; } jfieldID getStaticFieldID(JNIEnv *env, jclass clazz, const char *name, const char *sig) { jfieldID field; HPROF_ASSERT(env!=NULL); HPROF_ASSERT(clazz!=NULL); HPROF_ASSERT(name!=NULL); HPROF_ASSERT(sig!=NULL); CHECK_EXCEPTIONS(env) { field = JNI_FUNC_PTR(env,GetStaticFieldID)(env, clazz, name, sig); } END_CHECK_EXCEPTIONS; return field; } void setStaticIntField(JNIEnv *env, jclass clazz, jfieldID field, jint value) { HPROF_ASSERT(env!=NULL); HPROF_ASSERT(clazz!=NULL); HPROF_ASSERT(field!=NULL); CHECK_EXCEPTIONS(env) { JNI_FUNC_PTR(env,SetStaticIntField)(env, clazz, field, value); } END_CHECK_EXCEPTIONS; } static jobject callStaticObjectMethod(JNIEnv *env, jclass klass, jmethodID method) { jobject x; HPROF_ASSERT(env!=NULL); HPROF_ASSERT(klass!=NULL); HPROF_ASSERT(method!=NULL); CHECK_EXCEPTIONS(env) { x = JNI_FUNC_PTR(env,CallStaticObjectMethod)(env, klass, method); } END_CHECK_EXCEPTIONS; return x; } static jlong callLongMethod(JNIEnv *env, jobject object, jmethodID method) { jlong x; HPROF_ASSERT(env!=NULL); HPROF_ASSERT(object!=NULL); HPROF_ASSERT(method!=NULL); CHECK_EXCEPTIONS(env) { x = JNI_FUNC_PTR(env,CallLongMethod)(env, object, method); } END_CHECK_EXCEPTIONS; return x; } static void callVoidMethod(JNIEnv *env, jobject object, jmethodID method, jboolean arg) { HPROF_ASSERT(env!=NULL); HPROF_ASSERT(object!=NULL); HPROF_ASSERT(method!=NULL); CHECK_EXCEPTIONS(env) { JNI_FUNC_PTR(env,CallVoidMethod)(env, object, method, arg); } END_CHECK_EXCEPTIONS; } static jstring newStringUTF(JNIEnv *env, const char *name) /* WARNING: Must be called inside WITH_LOCAL_REFS */ { jstring string; HPROF_ASSERT(env!=NULL); HPROF_ASSERT(name!=NULL); CHECK_EXCEPTIONS(env) { string = JNI_FUNC_PTR(env,NewStringUTF)(env, name); } END_CHECK_EXCEPTIONS; HPROF_ASSERT(string!=NULL); return string; } static jobject newThreadObject(JNIEnv *env, jclass clazz, jmethodID method, jthreadGroup group, jstring name) /* WARNING: Must be called inside WITH_LOCAL_REFS */ { jthread thread; HPROF_ASSERT(env!=NULL); HPROF_ASSERT(clazz!=NULL); HPROF_ASSERT(method!=NULL); CHECK_EXCEPTIONS(env) { thread = JNI_FUNC_PTR(env,NewObject)(env, clazz, method, group, name); } END_CHECK_EXCEPTIONS; HPROF_ASSERT(thread!=NULL); return thread; } jboolean isSameObject(JNIEnv *env, jobject o1, jobject o2) { HPROF_ASSERT(env!=NULL); if ( o1 == o2 || JNI_FUNC_PTR(env,IsSameObject)(env, o1, o2) ) { return JNI_TRUE; } return JNI_FALSE; } void pushLocalFrame(JNIEnv *env, jint capacity) { HPROF_ASSERT(env!=NULL); CHECK_EXCEPTIONS(env) { jint ret; ret = JNI_FUNC_PTR(env,PushLocalFrame)(env, capacity); if ( ret != 0 ) { HPROF_ERROR(JNI_TRUE, "JNI PushLocalFrame returned non-zero"); } } END_CHECK_EXCEPTIONS; } void popLocalFrame(JNIEnv *env, jobject result) { jobject ret; HPROF_ASSERT(env!=NULL); ret = JNI_FUNC_PTR(env,PopLocalFrame)(env, result); if ( (result != NULL && ret == NULL) || (result == NULL && ret != NULL) ) { HPROF_ERROR(JNI_TRUE, "JNI PopLocalFrame returned wrong object"); } } void registerNatives(JNIEnv *env, jclass clazz, JNINativeMethod *methods, jint count) { jint ret; HPROF_ASSERT(env!=NULL); HPROF_ASSERT(clazz!=NULL); HPROF_ASSERT(methods!=NULL); HPROF_ASSERT(count>0); ret = JNI_FUNC_PTR(env,RegisterNatives)(env, clazz, methods, count); if ( ret != 0 ) { HPROF_ERROR(JNI_TRUE, "JNI RegisterNatives returned non-zero"); } } /* ---------------------------------------------------------------------- */ /* JVMTI Support Functions */ char * getErrorName(jvmtiError error_number) { char *error_name; error_name = NULL; (void)JVMTI_FUNC_PTR(gdata->jvmti,GetErrorName) (gdata->jvmti, error_number, &error_name); return error_name; } jvmtiPhase getPhase(void) { jvmtiPhase phase; phase = 0; (void)JVMTI_FUNC_PTR(gdata->jvmti,GetPhase)(gdata->jvmti, &phase); return phase; } char * phaseString(jvmtiPhase phase) { switch ( phase ) { case JVMTI_PHASE_ONLOAD: return "onload"; case JVMTI_PHASE_PRIMORDIAL: return "primordial"; case JVMTI_PHASE_START: return "start"; case JVMTI_PHASE_LIVE: return "live"; case JVMTI_PHASE_DEAD: return "dead"; } return "unknown"; } void disposeEnvironment(void) { (void)JVMTI_FUNC_PTR(gdata->jvmti,DisposeEnvironment) (gdata->jvmti); } jlong getObjectSize(jobject object) { jlong size; jvmtiError error; HPROF_ASSERT(object!=NULL); size = 0; error = JVMTI_FUNC_PTR(gdata->jvmti,GetObjectSize) (gdata->jvmti, object, &size); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get object size"); } return size; } static jboolean isInterface(jclass klass) { jvmtiError error; jboolean answer; HPROF_ASSERT(klass!=NULL); answer = JNI_FALSE; error = JVMTI_FUNC_PTR(gdata->jvmti,IsInterface) (gdata->jvmti, klass, &answer); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot call IsInterface"); } return answer; } jint getClassStatus(jclass klass) { jvmtiError error; jint status; HPROF_ASSERT(klass!=NULL); status = 0; error = JVMTI_FUNC_PTR(gdata->jvmti,GetClassStatus) (gdata->jvmti, klass, &status); if ( error == JVMTI_ERROR_WRONG_PHASE ) { /* Treat this as ok */ error = JVMTI_ERROR_NONE; status = 0; } if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get class status"); } return status; } jobject getClassLoader(jclass klass) /* WARNING: Must be called inside WITH_LOCAL_REFS */ { jvmtiError error; jobject loader; HPROF_ASSERT(klass!=NULL); loader = NULL; error = JVMTI_FUNC_PTR(gdata->jvmti,GetClassLoader) (gdata->jvmti, klass, &loader); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get class loader"); } return loader; } jlong getTag(jobject object) { jlong tag; jvmtiError error; HPROF_ASSERT(object!=NULL); tag = 0; error = JVMTI_FUNC_PTR(gdata->jvmti,GetTag) (gdata->jvmti, object, &tag); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get object tag"); } return tag; } void setTag(jobject object, jlong tag) { jvmtiError error; HPROF_ASSERT(object!=NULL); error = JVMTI_FUNC_PTR(gdata->jvmti,SetTag) (gdata->jvmti, object, tag); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot set object tag"); } } void getObjectMonitorUsage(jobject object, jvmtiMonitorUsage *uinfo) { jvmtiError error; HPROF_ASSERT(object!=NULL); error = JVMTI_FUNC_PTR(gdata->jvmti,GetObjectMonitorUsage) (gdata->jvmti, object, uinfo); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get monitor usage info"); } } void getOwnedMonitorInfo(jthread thread, jobject **ppobjects, jint *pcount) /* WARNING: Must be called inside WITH_LOCAL_REFS */ { jvmtiError error; HPROF_ASSERT(thread!=NULL); HPROF_ASSERT(ppobjects!=NULL); HPROF_ASSERT(pcount!=NULL); *pcount = 0; *ppobjects = NULL; error = JVMTI_FUNC_PTR(gdata->jvmti,GetOwnedMonitorInfo) (gdata->jvmti, thread, pcount, ppobjects); if ( error == JVMTI_ERROR_THREAD_NOT_ALIVE ) { *pcount = 0; error = JVMTI_ERROR_NONE; } if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get thread owned monitor info"); } } void getSystemProperty(const char *name, char **value) { jvmtiError error; HPROF_ASSERT(name!=NULL); *value = NULL; error = JVMTI_FUNC_PTR(gdata->jvmti,GetSystemProperty) (gdata->jvmti, name, value); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get system property"); } } void getClassSignature(jclass klass, char** psignature, char **pgeneric_signature) { jvmtiError error; char *generic_signature; HPROF_ASSERT(klass!=NULL); *psignature = NULL; error = JVMTI_FUNC_PTR(gdata->jvmti,GetClassSignature) (gdata->jvmti, klass, psignature, &generic_signature); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get class signature"); } if ( pgeneric_signature != NULL ) { *pgeneric_signature = generic_signature; } else { jvmtiDeallocate(generic_signature); } } void getSourceFileName(jclass klass, char** pname) { jvmtiError error; HPROF_ASSERT(klass!=NULL); *pname = NULL; error = JVMTI_FUNC_PTR(gdata->jvmti,GetSourceFileName) (gdata->jvmti, klass, pname); if ( error == JVMTI_ERROR_ABSENT_INFORMATION ) { error = JVMTI_ERROR_NONE; *pname = NULL; } if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get source file name"); } } static void getClassFields(jclass klass, jint* pn_fields, jfieldID** pfields) { jvmtiError error; jint status; HPROF_ASSERT(klass!=NULL); *pn_fields = 0; *pfields = NULL; /* Get class status */ status = getClassStatus(klass); /* Arrays have no fields */ if ( status & JVMTI_CLASS_STATUS_ARRAY ) { return; } /* Primitives have no fields */ if ( status & JVMTI_CLASS_STATUS_PRIMITIVE ) { return; } /* If the class is not prepared, we have a problem? */ if ( !(status & JVMTI_CLASS_STATUS_PREPARED) ) { HPROF_ERROR(JNI_FALSE, "Class not prepared when needing fields"); return; } /* Now try and get all the fields */ error = JVMTI_FUNC_PTR(gdata->jvmti,GetClassFields) (gdata->jvmti, klass, pn_fields, pfields); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get class field list"); } } static jint getFieldModifiers(jclass klass, jfieldID field) { jvmtiError error; jint modifiers; HPROF_ASSERT(klass!=NULL); HPROF_ASSERT(field!=NULL); modifiers = 0; error = JVMTI_FUNC_PTR(gdata->jvmti,GetFieldModifiers) (gdata->jvmti, klass, field, &modifiers); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get field modifiers"); } return modifiers; } static void getFieldName(jclass klass, jfieldID field, char** pname, char** psignature, char **pgeneric_signature) { jvmtiError error; char *generic_signature; generic_signature = NULL; *pname = NULL; *psignature = NULL; error = JVMTI_FUNC_PTR(gdata->jvmti,GetFieldName) (gdata->jvmti, klass, field, pname, psignature, &generic_signature); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get field name"); } if ( pgeneric_signature != NULL ) { *pgeneric_signature = generic_signature; } else { jvmtiDeallocate(generic_signature); } } static void getImplementedInterfaces(jclass klass, jint* pn_interfaces, jclass** pinterfaces) /* WARNING: Must be called inside WITH_LOCAL_REFS */ { jvmtiError error; *pn_interfaces = 0; *pinterfaces = NULL; error = JVMTI_FUNC_PTR(gdata->jvmti,GetImplementedInterfaces) (gdata->jvmti, klass, pn_interfaces, pinterfaces); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get class interface list"); } } static ClassIndex get_cnum(JNIEnv *env, jclass klass) /* WARNING: Must be called inside WITH_LOCAL_REFS */ { ClassIndex cnum; LoaderIndex loader_index; char *sig; jobject loader; loader = getClassLoader(klass); loader_index = loader_find_or_create(env, loader); getClassSignature(klass, &sig, NULL); cnum = class_find_or_create(sig, loader_index); jvmtiDeallocate(sig); (void)class_new_classref(env, cnum, klass); return cnum; } /* From primitive type, get signature letter */ char primTypeToSigChar(jvmtiPrimitiveType primType) { char sig_ch; sig_ch = 0; switch ( primType ) { case JVMTI_PRIMITIVE_TYPE_BYTE: sig_ch = JVM_SIGNATURE_BYTE; break; case JVMTI_PRIMITIVE_TYPE_CHAR: sig_ch = JVM_SIGNATURE_CHAR; break; case JVMTI_PRIMITIVE_TYPE_FLOAT: sig_ch = JVM_SIGNATURE_FLOAT; break; case JVMTI_PRIMITIVE_TYPE_DOUBLE: sig_ch = JVM_SIGNATURE_DOUBLE; break; case JVMTI_PRIMITIVE_TYPE_INT: sig_ch = JVM_SIGNATURE_INT; break; case JVMTI_PRIMITIVE_TYPE_LONG: sig_ch = JVM_SIGNATURE_LONG; break; case JVMTI_PRIMITIVE_TYPE_SHORT: sig_ch = JVM_SIGNATURE_SHORT; break; case JVMTI_PRIMITIVE_TYPE_BOOLEAN: sig_ch = JVM_SIGNATURE_BOOLEAN; break; default: sig_ch = 0; break; } return sig_ch; } /* From signature, get primitive type */ jvmtiPrimitiveType sigToPrimType(char *sig) { jvmtiPrimitiveType primType; primType = 0; if ( sig == NULL || sig[0] == 0 ) { return primType; } switch ( sig[0] ) { case JVM_SIGNATURE_BYTE: primType = JVMTI_PRIMITIVE_TYPE_BYTE; break; case JVM_SIGNATURE_CHAR: primType = JVMTI_PRIMITIVE_TYPE_CHAR; break; case JVM_SIGNATURE_FLOAT: primType = JVMTI_PRIMITIVE_TYPE_FLOAT; break; case JVM_SIGNATURE_DOUBLE: primType = JVMTI_PRIMITIVE_TYPE_DOUBLE; break; case JVM_SIGNATURE_INT: primType = JVMTI_PRIMITIVE_TYPE_INT; break; case JVM_SIGNATURE_LONG: primType = JVMTI_PRIMITIVE_TYPE_LONG; break; case JVM_SIGNATURE_SHORT: primType = JVMTI_PRIMITIVE_TYPE_SHORT; break; case JVM_SIGNATURE_BOOLEAN: primType = JVMTI_PRIMITIVE_TYPE_BOOLEAN; break; } return primType; } /* From signature, get primitive size */ int sigToPrimSize(char *sig) { unsigned size; size = 0; if ( sig == NULL || sig[0] == 0 ) { return size; } switch ( sig[0] ) { case JVM_SIGNATURE_BYTE: case JVM_SIGNATURE_BOOLEAN: size = 1; break; case JVM_SIGNATURE_CHAR: case JVM_SIGNATURE_SHORT: size = 2; break; case JVM_SIGNATURE_FLOAT: case JVM_SIGNATURE_INT: size = 4; break; case JVM_SIGNATURE_DOUBLE: case JVM_SIGNATURE_LONG: size = 8; break; } return size; } static void add_class_fields(JNIEnv *env, ClassIndex top_cnum, ClassIndex cnum, jclass klass, Stack *field_list, Stack *class_list) /* WARNING: Must be called inside WITH_LOCAL_REFS */ { jclass *interfaces; jint n_interfaces; jfieldID *idlist; jint n_fields; int i; int depth; int skip_static_field_names; jint status; HPROF_ASSERT(env!=NULL); HPROF_ASSERT(klass!=NULL); HPROF_ASSERT(field_list!=NULL); HPROF_ASSERT(class_list!=NULL); /* If not the initial class, we can skip the static fields (perf issue) */ skip_static_field_names = (cnum != top_cnum); /* Get class status */ status = getClassStatus(klass); /* Arrays have no fields */ if ( status & JVMTI_CLASS_STATUS_ARRAY ) { return; } /* Primitives have no fields */ if ( status & JVMTI_CLASS_STATUS_PRIMITIVE ) { return; } /* If the class is not prepared, we have a problem? */ if ( !(status & JVMTI_CLASS_STATUS_PREPARED) ) { char *sig; getClassSignature(klass, &sig, NULL); debug_message("Class signature is: %s\n", sig); HPROF_ERROR(JNI_FALSE, "Class not prepared when needing all fields"); jvmtiDeallocate(sig); return; } /* See if class already processed */ depth = stack_depth(class_list); for ( i = depth-1 ; i >= 0 ; i-- ) { if ( isSameObject(env, klass, *(jclass*)stack_element(class_list, i)) ) { return; } } /* Class or Interface, do implemented interfaces recursively */ getImplementedInterfaces(klass, &n_interfaces, &interfaces); for ( i = 0 ; i < n_interfaces ; i++ ) { add_class_fields(env, top_cnum, get_cnum(env, interfaces[i]), interfaces[i], field_list, class_list); } jvmtiDeallocate(interfaces); /* Begin graph traversal, go up super chain recursively */ if ( !isInterface(klass) ) { jclass super_klass; super_klass = getSuperclass(env, klass); if ( super_klass != NULL ) { add_class_fields(env, top_cnum, get_cnum(env, super_klass), super_klass, field_list, class_list); } } /* Only now we add klass to list so we don't repeat it later */ stack_push(class_list, &klass); /* Now actually add the fields for this klass */ getClassFields(klass, &n_fields, &idlist); for ( i = 0 ; i < n_fields ; i++ ) { FieldInfo finfo; static FieldInfo empty_finfo; finfo = empty_finfo; finfo.cnum = cnum; finfo.modifiers = getFieldModifiers(klass, idlist[i]); if ( ( finfo.modifiers & JVM_ACC_STATIC ) == 0 || !skip_static_field_names ) { char *field_name; char *field_sig; getFieldName(klass, idlist[i], &field_name, &field_sig, NULL); finfo.name_index = string_find_or_create(field_name); finfo.sig_index = string_find_or_create(field_sig); finfo.primType = sigToPrimType(field_sig); finfo.primSize = sigToPrimSize(field_sig); jvmtiDeallocate(field_name); jvmtiDeallocate(field_sig); } stack_push(field_list, &finfo); } jvmtiDeallocate(idlist); } void getAllClassFieldInfo(JNIEnv *env, jclass klass, jint* pn_fields, FieldInfo** pfields) { ClassIndex cnum; *pfields = NULL; *pn_fields = 0; WITH_LOCAL_REFS(env, 1) { Stack *class_list; Stack *field_list; int nbytes; cnum = get_cnum(env, klass); class_list = stack_init( 16, 16, (int)sizeof(jclass)); field_list = stack_init(128, 128, (int)sizeof(FieldInfo)); add_class_fields(env, cnum, cnum, klass, field_list, class_list); *pn_fields = stack_depth(field_list); if ( (*pn_fields) > 0 ) { nbytes = (*pn_fields) * (int)sizeof(FieldInfo); *pfields = (FieldInfo*)HPROF_MALLOC(nbytes); (void)memcpy(*pfields, stack_element(field_list, 0), nbytes); } stack_term(field_list); stack_term(class_list); } END_WITH_LOCAL_REFS; } void getMethodClass(jmethodID method, jclass *pclazz) /* WARNING: Must be called inside WITH_LOCAL_REFS */ { jvmtiError error; HPROF_ASSERT(method!=NULL); *pclazz = NULL; error = JVMTI_FUNC_PTR(gdata->jvmti,GetMethodDeclaringClass) (gdata->jvmti, method, pclazz); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get method class"); } } jboolean isMethodNative(jmethodID method) { jvmtiError error; jboolean isNative; HPROF_ASSERT(method!=NULL); error = JVMTI_FUNC_PTR(gdata->jvmti,IsMethodNative) (gdata->jvmti, method, &isNative); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot check is method native"); } return isNative; } void getMethodName(jmethodID method, char** pname, char** psignature) { jvmtiError error; char *generic_signature; HPROF_ASSERT(method!=NULL); generic_signature = NULL; *pname = NULL; *psignature = NULL; error = JVMTI_FUNC_PTR(gdata->jvmti,GetMethodName) (gdata->jvmti, method, pname, psignature, &generic_signature); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get method name"); } jvmtiDeallocate(generic_signature); } void getPotentialCapabilities(jvmtiCapabilities *pcapabilities) { jvmtiError error; (void)memset(pcapabilities,0,sizeof(jvmtiCapabilities)); error = JVMTI_FUNC_PTR(gdata->jvmti,GetPotentialCapabilities) (gdata->jvmti, pcapabilities); if (error != JVMTI_ERROR_NONE) { HPROF_ERROR(JNI_FALSE, "Unable to get potential JVMTI capabilities."); error_exit_process(1); /* Kill entire process, no core dump wanted */ } } void addCapabilities(jvmtiCapabilities *pcapabilities) { jvmtiError error; error = JVMTI_FUNC_PTR(gdata->jvmti,AddCapabilities) (gdata->jvmti, pcapabilities); if (error != JVMTI_ERROR_NONE) { HPROF_ERROR(JNI_FALSE, "Unable to get necessary JVMTI capabilities."); error_exit_process(1); /* Kill entire process, no core dump wanted */ } } void setEventCallbacks(jvmtiEventCallbacks *pcallbacks) { jvmtiError error; error = JVMTI_FUNC_PTR(gdata->jvmti,SetEventCallbacks) (gdata->jvmti, pcallbacks, (int)sizeof(jvmtiEventCallbacks)); if (error != JVMTI_ERROR_NONE) { HPROF_JVMTI_ERROR(error, "Cannot set jvmti callbacks"); } } void * getThreadLocalStorage(jthread thread) { jvmtiError error; void *ptr; HPROF_ASSERT(thread!=NULL); ptr = NULL; error = JVMTI_FUNC_PTR(gdata->jvmti,GetThreadLocalStorage) (gdata->jvmti, thread, &ptr); if ( error == JVMTI_ERROR_WRONG_PHASE ) { /* Treat this as ok */ error = JVMTI_ERROR_NONE; ptr = NULL; } if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get thread local storage"); } return ptr; } void setThreadLocalStorage(jthread thread, void *ptr) { jvmtiError error; HPROF_ASSERT(thread!=NULL); error = JVMTI_FUNC_PTR(gdata->jvmti,SetThreadLocalStorage) (gdata->jvmti, thread, (const void *)ptr); if ( error == JVMTI_ERROR_WRONG_PHASE ) { /* Treat this as ok */ error = JVMTI_ERROR_NONE; } if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot set thread local storage"); } } void getThreadState(jthread thread, jint *threadState) { jvmtiError error; HPROF_ASSERT(thread!=NULL); HPROF_ASSERT(threadState!=NULL); *threadState = 0; error = JVMTI_FUNC_PTR(gdata->jvmti,GetThreadState) (gdata->jvmti, thread, threadState); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get thread state"); } } void getThreadInfo(jthread thread, jvmtiThreadInfo *info) /* WARNING: Must be called inside WITH_LOCAL_REFS */ { jvmtiError error; HPROF_ASSERT(thread!=NULL); HPROF_ASSERT(info!=NULL); (void)memset((void*)info, 0, sizeof(jvmtiThreadInfo)); error = JVMTI_FUNC_PTR(gdata->jvmti,GetThreadInfo) (gdata->jvmti, thread, info); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get thread info"); } } void getThreadGroupInfo(jthreadGroup thread_group, jvmtiThreadGroupInfo *info) /* WARNING: Must be called inside WITH_LOCAL_REFS */ { jvmtiError error; HPROF_ASSERT(info!=NULL); (void)memset((void*)info, 0, sizeof(jvmtiThreadGroupInfo)); error = JVMTI_FUNC_PTR(gdata->jvmti,GetThreadGroupInfo) (gdata->jvmti, thread_group, info); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get thread group info"); } } void getLoadedClasses(jclass **ppclasses, jint *pcount) /* WARNING: Must be called inside WITH_LOCAL_REFS */ { jvmtiError error; *ppclasses = NULL; *pcount = 0; error = JVMTI_FUNC_PTR(gdata->jvmti,GetLoadedClasses) (gdata->jvmti, pcount, ppclasses); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get all loaded class list"); } } static void getLineNumberTable(jmethodID method, jvmtiLineNumberEntry **ppentries, jint *pcount) { jvmtiError error; HPROF_ASSERT(method!=NULL); *ppentries = NULL; *pcount = 0; error = JVMTI_FUNC_PTR(gdata->jvmti,GetLineNumberTable) (gdata->jvmti, method, pcount, ppentries); if ( error == JVMTI_ERROR_ABSENT_INFORMATION ) { error = JVMTI_ERROR_NONE; *ppentries = NULL; *pcount = 0; } if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get source line numbers"); } } static jint map_loc2line(jlocation location, jvmtiLineNumberEntry *table, jint count) { jint line_number; int i; int start; int half; HPROF_ASSERT(location>=0); HPROF_ASSERT(count>=0); line_number = -1; if ( count == 0 ) { return line_number; } /* Do a binary search */ half = count >> 1; start = 0; while ( half > 0 ) { jlocation start_location; start_location = table[start + half].start_location; if ( location > start_location ) { start = start + half; } else if ( location == start_location ) { start = start + half; break; } half = half >> 1; } HPROF_ASSERT(start < count); /* Now start the table search */ for ( i = start ; i < count ; i++ ) { if ( location < table[i].start_location ) { HPROF_ASSERT( ((int)location) < ((int)table[i].start_location) ); break; } line_number = table[i].line_number; } HPROF_ASSERT(line_number > 0); return line_number; } jint getLineNumber(jmethodID method, jlocation location) { jvmtiLineNumberEntry *line_table; jint line_count; jint lineno; HPROF_ASSERT(method!=NULL); if ( location < 0 ) { HPROF_ASSERT(location > -4); return (jint)location; } lineno = -1; getLineNumberTable(method, &line_table, &line_count); lineno = map_loc2line(location, line_table, line_count); jvmtiDeallocate(line_table); return lineno; } jlong getMaxMemory(JNIEnv *env) { jlong max; HPROF_ASSERT(env!=NULL); max = (jlong)0; WITH_LOCAL_REFS(env, 1) { jclass clazz; jmethodID getRuntime; jobject runtime; jmethodID maxMemory; clazz = findClass(env, "java/lang/Runtime"); getRuntime = getStaticMethodID(env, clazz, "getRuntime", "()Ljava/lang/Runtime;"); runtime = callStaticObjectMethod(env, clazz, getRuntime); maxMemory = getMethodID(env, clazz, "maxMemory", "()J"); max = callLongMethod(env, runtime, maxMemory); } END_WITH_LOCAL_REFS; return max; } void createAgentThread(JNIEnv *env, const char *name, jvmtiStartFunction func) { jvmtiError error; HPROF_ASSERT(name!=NULL); HPROF_ASSERT(func!=NULL); WITH_LOCAL_REFS(env, 1) { jclass clazz; jmethodID threadConstructor; jmethodID threadSetDaemon; jthread thread; jstring nameString; jthreadGroup systemThreadGroup; jthreadGroup * groups; jint groupCount; thread = NULL; systemThreadGroup = NULL; groups = NULL; clazz = class_get_class(env, gdata->thread_cnum); HPROF_ASSERT(clazz!=NULL); threadConstructor = getMethodID(env, clazz, "", "(Ljava/lang/ThreadGroup;Ljava/lang/String;)V"); threadSetDaemon = getMethodID(env, clazz, "setDaemon", "(Z)V"); error = JVMTI_FUNC_PTR(gdata->jvmti,GetTopThreadGroups) (gdata->jvmti, &groupCount, &groups); if ( error == JVMTI_ERROR_NONE ) { if ( groupCount > 0 ) { systemThreadGroup = groups[0]; } jvmtiDeallocate(groups); nameString = newStringUTF(env, name); HPROF_ASSERT(nameString!=NULL); thread = newThreadObject(env, clazz, threadConstructor, systemThreadGroup, nameString); HPROF_ASSERT(thread!=NULL); callVoidMethod(env, thread, threadSetDaemon, JNI_TRUE); error = JVMTI_FUNC_PTR(gdata->jvmti,RunAgentThread) (gdata->jvmti, thread, func, NULL, JVMTI_THREAD_MAX_PRIORITY); /* After the thread is running... */ /* Make sure the TLS table has this thread as an agent thread */ tls_agent_thread(env, thread); } } END_WITH_LOCAL_REFS; if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot create agent thread"); } } jlong getThreadCpuTime(jthread thread) { jvmtiError error; jlong cpuTime; HPROF_ASSERT(thread!=NULL); cpuTime = -1; error = JVMTI_FUNC_PTR(gdata->jvmti,GetThreadCpuTime) (gdata->jvmti, thread, &cpuTime); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get cpu time"); } return cpuTime; } /* Get frame count */ void getFrameCount(jthread thread, jint *pcount) { jvmtiError error; HPROF_ASSERT(thread!=NULL); HPROF_ASSERT(pcount!=NULL); *pcount = 0; error = JVMTI_FUNC_PTR(gdata->jvmti,GetFrameCount) (gdata->jvmti, thread, pcount); if ( error != JVMTI_ERROR_NONE ) { *pcount = 0; } } /* Get call trace */ void getStackTrace(jthread thread, jvmtiFrameInfo *pframes, jint depth, jint *pcount) { jvmtiError error; HPROF_ASSERT(thread!=NULL); HPROF_ASSERT(pframes!=NULL); HPROF_ASSERT(depth >= 0); HPROF_ASSERT(pcount!=NULL); *pcount = 0; error = JVMTI_FUNC_PTR(gdata->jvmti,GetStackTrace) (gdata->jvmti, thread, 0, depth, pframes, pcount); if ( error != JVMTI_ERROR_NONE ) { *pcount = 0; } } void getThreadListStackTraces(jint count, jthread *threads, jint depth, jvmtiStackInfo **stack_info) { jvmtiError error; HPROF_ASSERT(threads!=NULL); HPROF_ASSERT(stack_info!=NULL); HPROF_ASSERT(depth >= 0); HPROF_ASSERT(count > 0); *stack_info = NULL; error = JVMTI_FUNC_PTR(gdata->jvmti,GetThreadListStackTraces) (gdata->jvmti, count, threads, depth, stack_info); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot get thread list stack info"); } } void followReferences(jvmtiHeapCallbacks *pHeapCallbacks, void *user_data) { jvmtiError error; error = JVMTI_FUNC_PTR(gdata->jvmti,FollowReferences) (gdata->jvmti, 0, NULL, NULL, pHeapCallbacks, user_data); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot follow references"); } } /* GC control */ void runGC(void) { jvmtiError error; error = JVMTI_FUNC_PTR(gdata->jvmti,ForceGarbageCollection) (gdata->jvmti); if ( error != JVMTI_ERROR_NONE ) { HPROF_JVMTI_ERROR(error, "Cannot force garbage collection"); } } /* ------------------------------------------------------------------- */ /* Getting the initial JVMTI environment */ void getJvmti(void) { jvmtiEnv *jvmti = NULL; jint res; jint jvmtiCompileTimeMajorVersion; jint jvmtiCompileTimeMinorVersion; jint jvmtiCompileTimeMicroVersion; res = JVM_FUNC_PTR(gdata->jvm,GetEnv) (gdata->jvm, (void **)&jvmti, JVMTI_VERSION_1); if (res != JNI_OK) { char buf[256]; (void)md_snprintf(buf, sizeof(buf), "Unable to access JVMTI Version 1 (0x%x)," " is your JDK a 5.0 or newer version?" " JNIEnv's GetEnv() returned %d", JVMTI_VERSION_1, res); buf[sizeof(buf)-1] = 0; HPROF_ERROR(JNI_FALSE, buf); error_exit_process(1); /* Kill entire process, no core dump */ } gdata->jvmti = jvmti; /* Check to make sure the version of jvmti.h we compiled with * matches the runtime version we are using. */ jvmtiCompileTimeMajorVersion = ( JVMTI_VERSION & JVMTI_VERSION_MASK_MAJOR ) >> JVMTI_VERSION_SHIFT_MAJOR; jvmtiCompileTimeMinorVersion = ( JVMTI_VERSION & JVMTI_VERSION_MASK_MINOR ) >> JVMTI_VERSION_SHIFT_MINOR; jvmtiCompileTimeMicroVersion = ( JVMTI_VERSION & JVMTI_VERSION_MASK_MICRO ) >> JVMTI_VERSION_SHIFT_MICRO; if ( !compatible_versions(jvmtiMajorVersion(), jvmtiMinorVersion(), jvmtiCompileTimeMajorVersion, jvmtiCompileTimeMinorVersion) ) { char buf[256]; (void)md_snprintf(buf, sizeof(buf), "This " AGENTNAME " native library will not work with this VM's " "version of JVMTI (%d.%d.%d), it needs JVMTI %d.%d[.%d]." , jvmtiMajorVersion(), jvmtiMinorVersion(), jvmtiMicroVersion(), jvmtiCompileTimeMajorVersion, jvmtiCompileTimeMinorVersion, jvmtiCompileTimeMicroVersion); buf[sizeof(buf)-1] = 0; HPROF_ERROR(JNI_FALSE, buf); error_exit_process(1); /* Kill entire process, no core dump wanted */ } }