blob: 060c452da0e48ae3614cb08417505bb9b69734ee [file] [log] [blame]
/*
* Copyright (c) 1998, 2013, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
#include <ctype.h>
// ANDROID-CHANGED: Include time.h so we can use clock_gettime to implement milliTime.
#include <time.h>
#include "util.h"
#include "transport.h"
#include "eventHandler.h"
#include "threadControl.h"
#include "outStream.h"
#include "inStream.h"
#include "invoker.h"
/* Global data area */
BackendGlobalData *gdata = NULL;
/* Forward declarations */
static jboolean isInterface(jclass clazz);
static jboolean isArrayClass(jclass clazz);
static char * getPropertyUTF8(JNIEnv *env, char *propertyName);
// ANDROID-CHANGED: Implement a helper to get the current time in milliseconds according to
// CLOCK_MONOTONIC.
jlong
milliTime(void)
{
struct timespec now;
memset(&now, 0, sizeof(now));
(void)clock_gettime(CLOCK_MONOTONIC, &now);
return ((jlong)now.tv_sec) * 1000LL + ((jlong)now.tv_nsec) / 1000000LL;
}
/* Save an object reference for use later (create a NewGlobalRef) */
void
saveGlobalRef(JNIEnv *env, jobject obj, jobject *pobj)
{
jobject newobj;
if ( pobj == NULL ) {
EXIT_ERROR(AGENT_ERROR_ILLEGAL_ARGUMENT,"saveGlobalRef pobj");
}
if ( *pobj != NULL ) {
EXIT_ERROR(AGENT_ERROR_ILLEGAL_ARGUMENT,"saveGlobalRef *pobj");
}
if ( env == NULL ) {
EXIT_ERROR(AGENT_ERROR_ILLEGAL_ARGUMENT,"saveGlobalRef env");
}
if ( obj == NULL ) {
EXIT_ERROR(AGENT_ERROR_ILLEGAL_ARGUMENT,"saveGlobalRef obj");
}
newobj = JNI_FUNC_PTR(env,NewGlobalRef)(env, obj);
if ( newobj == NULL ) {
EXIT_ERROR(AGENT_ERROR_NULL_POINTER,"NewGlobalRef");
}
*pobj = newobj;
}
/* Toss a previously saved object reference */
void
tossGlobalRef(JNIEnv *env, jobject *pobj)
{
jobject obj;
if ( pobj == NULL ) {
EXIT_ERROR(AGENT_ERROR_ILLEGAL_ARGUMENT,"tossGlobalRef pobj");
}
obj = *pobj;
if ( env == NULL ) {
EXIT_ERROR(AGENT_ERROR_ILLEGAL_ARGUMENT,"tossGlobalRef env");
}
if ( obj == NULL ) {
EXIT_ERROR(AGENT_ERROR_NULL_POINTER,"tossGlobalRef obj");
}
JNI_FUNC_PTR(env,DeleteGlobalRef)(env, obj);
*pobj = NULL;
}
static jclass
findClass(JNIEnv *env, const char * name)
{
jclass x;
if ( env == NULL ) {
EXIT_ERROR(AGENT_ERROR_ILLEGAL_ARGUMENT,"findClass env");
}
if ( name == NULL || name[0] == 0 ) {
EXIT_ERROR(AGENT_ERROR_ILLEGAL_ARGUMENT,"findClass name");
}
x = JNI_FUNC_PTR(env,FindClass)(env, name);
if (x == NULL) {
ERROR_MESSAGE(("JDWP Can't find class %s", name));
EXIT_ERROR(AGENT_ERROR_NULL_POINTER,NULL);
}
if ( JNI_FUNC_PTR(env,ExceptionOccurred)(env) ) {
ERROR_MESSAGE(("JDWP Exception occurred finding class %s", name));
EXIT_ERROR(AGENT_ERROR_NULL_POINTER,NULL);
}
return x;
}
static jmethodID
getMethod(JNIEnv *env, jclass clazz, const char * name, const char *signature)
{
jmethodID method;
if ( env == NULL ) {
EXIT_ERROR(AGENT_ERROR_ILLEGAL_ARGUMENT,"getMethod env");
}
if ( clazz == NULL ) {
EXIT_ERROR(AGENT_ERROR_ILLEGAL_ARGUMENT,"getMethod clazz");
}
if ( name == NULL || name[0] == 0 ) {
EXIT_ERROR(AGENT_ERROR_ILLEGAL_ARGUMENT,"getMethod name");
}
if ( signature == NULL || signature[0] == 0 ) {
EXIT_ERROR(AGENT_ERROR_ILLEGAL_ARGUMENT,"getMethod signature");
}
method = JNI_FUNC_PTR(env,GetMethodID)(env, clazz, name, signature);
if (method == NULL) {
ERROR_MESSAGE(("JDWP Can't find method %s with signature %s",
name, signature));
EXIT_ERROR(AGENT_ERROR_NULL_POINTER,NULL);
}
if ( JNI_FUNC_PTR(env,ExceptionOccurred)(env) ) {
ERROR_MESSAGE(("JDWP Exception occurred finding method %s with signature %s",
name, signature));
EXIT_ERROR(AGENT_ERROR_NULL_POINTER,NULL);
}
return method;
}
static jmethodID
getStaticMethod(JNIEnv *env, jclass clazz, const char * name, const char *signature)
{
jmethodID method;
if ( env == NULL ) {
EXIT_ERROR(AGENT_ERROR_ILLEGAL_ARGUMENT,"getStaticMethod env");
}
if ( clazz == NULL ) {
EXIT_ERROR(AGENT_ERROR_ILLEGAL_ARGUMENT,"getStaticMethod clazz");
}
if ( name == NULL || name[0] == 0 ) {
EXIT_ERROR(AGENT_ERROR_ILLEGAL_ARGUMENT,"getStaticMethod name");
}
if ( signature == NULL || signature[0] == 0 ) {
EXIT_ERROR(AGENT_ERROR_ILLEGAL_ARGUMENT,"getStaticMethod signature");
}
method = JNI_FUNC_PTR(env,GetStaticMethodID)(env, clazz, name, signature);
if (method == NULL) {
ERROR_MESSAGE(("JDWP Can't find method %s with signature %s",
name, signature));
EXIT_ERROR(AGENT_ERROR_NULL_POINTER,NULL);
}
if ( JNI_FUNC_PTR(env,ExceptionOccurred)(env) ) {
ERROR_MESSAGE(("JDWP Exception occurred finding method %s with signature %s",
name, signature));
EXIT_ERROR(AGENT_ERROR_NULL_POINTER,NULL);
}
return method;
}
void
util_initialize(JNIEnv *env)
{
WITH_LOCAL_REFS(env, 6) {
jvmtiError error;
jclass localClassClass;
jclass localThreadClass;
jclass localThreadGroupClass;
jclass localClassLoaderClass;
jclass localStringClass;
jclass localSystemClass;
jclass localPropertiesClass;
jclass localVMSupportClass;
jobject localAgentProperties;
jmethodID getAgentProperties;
jint groupCount;
jthreadGroup *groups;
jthreadGroup localSystemThreadGroup;
/* Find some standard classes */
localClassClass = findClass(env,"java/lang/Class");
localThreadClass = findClass(env,"java/lang/Thread");
localThreadGroupClass = findClass(env,"java/lang/ThreadGroup");
localClassLoaderClass = findClass(env,"java/lang/ClassLoader");
localStringClass = findClass(env,"java/lang/String");
localSystemClass = findClass(env,"java/lang/System");
localPropertiesClass = findClass(env,"java/util/Properties");
/* Save references */
saveGlobalRef(env, localClassClass, &(gdata->classClass));
saveGlobalRef(env, localThreadClass, &(gdata->threadClass));
saveGlobalRef(env, localThreadGroupClass, &(gdata->threadGroupClass));
saveGlobalRef(env, localClassLoaderClass, &(gdata->classLoaderClass));
saveGlobalRef(env, localStringClass, &(gdata->stringClass));
saveGlobalRef(env, localSystemClass, &(gdata->systemClass));
/* Find some standard methods */
gdata->threadConstructor =
getMethod(env, gdata->threadClass,
"<init>", "(Ljava/lang/ThreadGroup;Ljava/lang/String;)V");
gdata->threadSetDaemon =
getMethod(env, gdata->threadClass, "setDaemon", "(Z)V");
gdata->threadResume =
getMethod(env, gdata->threadClass, "resume", "()V");
gdata->systemGetProperty =
getStaticMethod(env, gdata->systemClass,
"getProperty", "(Ljava/lang/String;)Ljava/lang/String;");
gdata->setProperty =
getMethod(env, localPropertiesClass,
"setProperty", "(Ljava/lang/String;Ljava/lang/String;)Ljava/lang/Object;");
/* Find the system thread group */
groups = NULL;
groupCount = 0;
error = JVMTI_FUNC_PTR(gdata->jvmti,GetTopThreadGroups)
(gdata->jvmti, &groupCount, &groups);
if (error != JVMTI_ERROR_NONE ) {
EXIT_ERROR(error, "Can't get system thread group");
}
if ( groupCount == 0 ) {
EXIT_ERROR(AGENT_ERROR_NULL_POINTER, "Can't get system thread group");
}
localSystemThreadGroup = groups[0];
saveGlobalRef(env, localSystemThreadGroup, &(gdata->systemThreadGroup));
/* Get some basic Java property values we will need at some point */
gdata->property_java_version
= getPropertyUTF8(env, "java.version");
gdata->property_java_vm_name
= getPropertyUTF8(env, "java.vm.name");
// ANDROID-CHANGED: Android doesn't provide the 'java.vm.info' property. Just provide the
// rest of the agent with an empty string to use for it.
gdata->property_java_vm_info = jvmtiAllocate(1);
gdata->property_java_vm_info[0] = '\0';
gdata->property_java_class_path
= getPropertyUTF8(env, "java.class.path");
// ANDROID-CHANGED: Android uses java.boot.class.path to store the bootclasspath.
gdata->property_sun_boot_class_path
= getPropertyUTF8(env, "java.boot.class.path");
// ANDROID-CHANGED: Android uses java.library.path to store all library path information.
gdata->property_sun_boot_library_path
= getPropertyUTF8(env, "java.library.path");
gdata->property_path_separator
= getPropertyUTF8(env, "path.separator");
gdata->property_user_dir
= getPropertyUTF8(env, "user.dir");
/* Get agent properties: invoke sun.misc.VMSupport.getAgentProperties */
localVMSupportClass = JNI_FUNC_PTR(env,FindClass)
(env, "sun/misc/VMSupport");
if (localVMSupportClass == NULL) {
gdata->agent_properties = NULL;
if (JNI_FUNC_PTR(env,ExceptionOccurred)(env)) {
JNI_FUNC_PTR(env,ExceptionClear)(env);
}
} else {
getAgentProperties =
getStaticMethod(env, localVMSupportClass,
"getAgentProperties", "()Ljava/util/Properties;");
localAgentProperties =
JNI_FUNC_PTR(env,CallStaticObjectMethod)
(env, localVMSupportClass, getAgentProperties);
saveGlobalRef(env, localAgentProperties, &(gdata->agent_properties));
if (JNI_FUNC_PTR(env,ExceptionOccurred)(env)) {
JNI_FUNC_PTR(env,ExceptionClear)(env);
EXIT_ERROR(AGENT_ERROR_INTERNAL,
"Exception occurred calling sun.misc.VMSupport.getAgentProperties");
}
}
} END_WITH_LOCAL_REFS(env);
}
void
util_reset(void)
{
}
jboolean
isObjectTag(jbyte tag) {
return (tag == JDWP_TAG(OBJECT)) ||
(tag == JDWP_TAG(STRING)) ||
(tag == JDWP_TAG(THREAD)) ||
(tag == JDWP_TAG(THREAD_GROUP)) ||
(tag == JDWP_TAG(CLASS_LOADER)) ||
(tag == JDWP_TAG(CLASS_OBJECT)) ||
(tag == JDWP_TAG(ARRAY));
}
jbyte
specificTypeKey(JNIEnv *env, jobject object)
{
if (object == NULL) {
return JDWP_TAG(OBJECT);
} else if (JNI_FUNC_PTR(env,IsInstanceOf)(env, object, gdata->stringClass)) {
return JDWP_TAG(STRING);
} else if (JNI_FUNC_PTR(env,IsInstanceOf)(env, object, gdata->threadClass)) {
return JDWP_TAG(THREAD);
} else if (JNI_FUNC_PTR(env,IsInstanceOf)(env, object, gdata->threadGroupClass)) {
return JDWP_TAG(THREAD_GROUP);
} else if (JNI_FUNC_PTR(env,IsInstanceOf)(env, object, gdata->classLoaderClass)) {
return JDWP_TAG(CLASS_LOADER);
} else if (JNI_FUNC_PTR(env,IsInstanceOf)(env, object, gdata->classClass)) {
return JDWP_TAG(CLASS_OBJECT);
} else {
jboolean classIsArray;
WITH_LOCAL_REFS(env, 1) {
jclass clazz;
clazz = JNI_FUNC_PTR(env,GetObjectClass)(env, object);
classIsArray = isArrayClass(clazz);
} END_WITH_LOCAL_REFS(env);
return (classIsArray ? JDWP_TAG(ARRAY) : JDWP_TAG(OBJECT));
}
}
static void
writeFieldValue(JNIEnv *env, PacketOutputStream *out, jobject object,
jfieldID field)
{
jclass clazz;
char *signature = NULL;
jvmtiError error;
jbyte typeKey;
clazz = JNI_FUNC_PTR(env,GetObjectClass)(env, object);
error = fieldSignature(clazz, field, NULL, &signature, NULL);
if (error != JVMTI_ERROR_NONE) {
outStream_setError(out, map2jdwpError(error));
return;
}
typeKey = signature[0];
jvmtiDeallocate(signature);
/*
* For primitive types, the type key is bounced back as is. Objects
* are handled in the switch statement below.
*/
if ((typeKey != JDWP_TAG(OBJECT)) && (typeKey != JDWP_TAG(ARRAY))) {
(void)outStream_writeByte(out, typeKey);
}
switch (typeKey) {
case JDWP_TAG(OBJECT):
case JDWP_TAG(ARRAY): {
jobject value = JNI_FUNC_PTR(env,GetObjectField)(env, object, field);
(void)outStream_writeByte(out, specificTypeKey(env, value));
(void)outStream_writeObjectRef(env, out, value);
break;
}
case JDWP_TAG(BYTE):
(void)outStream_writeByte(out,
JNI_FUNC_PTR(env,GetByteField)(env, object, field));
break;
case JDWP_TAG(CHAR):
(void)outStream_writeChar(out,
JNI_FUNC_PTR(env,GetCharField)(env, object, field));
break;
case JDWP_TAG(FLOAT):
(void)outStream_writeFloat(out,
JNI_FUNC_PTR(env,GetFloatField)(env, object, field));
break;
case JDWP_TAG(DOUBLE):
(void)outStream_writeDouble(out,
JNI_FUNC_PTR(env,GetDoubleField)(env, object, field));
break;
case JDWP_TAG(INT):
(void)outStream_writeInt(out,
JNI_FUNC_PTR(env,GetIntField)(env, object, field));
break;
case JDWP_TAG(LONG):
(void)outStream_writeLong(out,
JNI_FUNC_PTR(env,GetLongField)(env, object, field));
break;
case JDWP_TAG(SHORT):
(void)outStream_writeShort(out,
JNI_FUNC_PTR(env,GetShortField)(env, object, field));
break;
case JDWP_TAG(BOOLEAN):
(void)outStream_writeBoolean(out,
JNI_FUNC_PTR(env,GetBooleanField)(env, object, field));
break;
}
}
static void
writeStaticFieldValue(JNIEnv *env, PacketOutputStream *out, jclass clazz,
jfieldID field)
{
jvmtiError error;
char *signature = NULL;
jbyte typeKey;
error = fieldSignature(clazz, field, NULL, &signature, NULL);
if (error != JVMTI_ERROR_NONE) {
outStream_setError(out, map2jdwpError(error));
return;
}
typeKey = signature[0];
jvmtiDeallocate(signature);
/*
* For primitive types, the type key is bounced back as is. Objects
* are handled in the switch statement below.
*/
if ((typeKey != JDWP_TAG(OBJECT)) && (typeKey != JDWP_TAG(ARRAY))) {
(void)outStream_writeByte(out, typeKey);
}
switch (typeKey) {
case JDWP_TAG(OBJECT):
case JDWP_TAG(ARRAY): {
jobject value = JNI_FUNC_PTR(env,GetStaticObjectField)(env, clazz, field);
(void)outStream_writeByte(out, specificTypeKey(env, value));
(void)outStream_writeObjectRef(env, out, value);
break;
}
case JDWP_TAG(BYTE):
(void)outStream_writeByte(out,
JNI_FUNC_PTR(env,GetStaticByteField)(env, clazz, field));
break;
case JDWP_TAG(CHAR):
(void)outStream_writeChar(out,
JNI_FUNC_PTR(env,GetStaticCharField)(env, clazz, field));
break;
case JDWP_TAG(FLOAT):
(void)outStream_writeFloat(out,
JNI_FUNC_PTR(env,GetStaticFloatField)(env, clazz, field));
break;
case JDWP_TAG(DOUBLE):
(void)outStream_writeDouble(out,
JNI_FUNC_PTR(env,GetStaticDoubleField)(env, clazz, field));
break;
case JDWP_TAG(INT):
(void)outStream_writeInt(out,
JNI_FUNC_PTR(env,GetStaticIntField)(env, clazz, field));
break;
case JDWP_TAG(LONG):
(void)outStream_writeLong(out,
JNI_FUNC_PTR(env,GetStaticLongField)(env, clazz, field));
break;
case JDWP_TAG(SHORT):
(void)outStream_writeShort(out,
JNI_FUNC_PTR(env,GetStaticShortField)(env, clazz, field));
break;
case JDWP_TAG(BOOLEAN):
(void)outStream_writeBoolean(out,
JNI_FUNC_PTR(env,GetStaticBooleanField)(env, clazz, field));
break;
}
}
void
sharedGetFieldValues(PacketInputStream *in, PacketOutputStream *out,
jboolean isStatic)
{
JNIEnv *env = getEnv();
jint length;
jobject object;
jclass clazz;
object = NULL;
clazz = NULL;
if (isStatic) {
clazz = inStream_readClassRef(env, in);
} else {
object = inStream_readObjectRef(env, in);
}
length = inStream_readInt(in);
if (inStream_error(in)) {
return;
}
WITH_LOCAL_REFS(env, length + 1) { /* +1 for class with instance fields */
int i;
(void)outStream_writeInt(out, length);
for (i = 0; (i < length) && !outStream_error(out); i++) {
jfieldID field = inStream_readFieldID(in);
if (isStatic) {
writeStaticFieldValue(env, out, clazz, field);
} else {
writeFieldValue(env, out, object, field);
}
}
} END_WITH_LOCAL_REFS(env);
}
jboolean
sharedInvoke(PacketInputStream *in, PacketOutputStream *out)
{
jvalue *arguments = NULL;
jint options;
jvmtiError error;
jbyte invokeType;
jclass clazz;
jmethodID method;
jint argumentCount;
jobject instance;
jthread thread;
JNIEnv *env;
/*
* Instance methods start with the instance, thread and class,
* and statics and constructors start with the class and then the
* thread.
*/
env = getEnv();
if (inStream_command(in) == JDWP_COMMAND(ObjectReference, InvokeMethod)) {
instance = inStream_readObjectRef(env, in);
thread = inStream_readThreadRef(env, in);
clazz = inStream_readClassRef(env, in);
} else { /* static method or constructor */
instance = NULL;
clazz = inStream_readClassRef(env, in);
thread = inStream_readThreadRef(env, in);
}
/*
* ... and the rest of the packet is identical for all commands
*/
method = inStream_readMethodID(in);
argumentCount = inStream_readInt(in);
if (inStream_error(in)) {
return JNI_TRUE;
}
/* If count == 0, don't try and allocate 0 bytes, you'll get NULL */
if ( argumentCount > 0 ) {
int i;
/*LINTED*/
arguments = jvmtiAllocate(argumentCount * (jint)sizeof(*arguments));
if (arguments == NULL) {
outStream_setError(out, JDWP_ERROR(OUT_OF_MEMORY));
return JNI_TRUE;
}
for (i = 0; (i < argumentCount) && !inStream_error(in); i++) {
arguments[i] = inStream_readValue(in, NULL);
}
if (inStream_error(in)) {
return JNI_TRUE;
}
}
options = inStream_readInt(in);
if (inStream_error(in)) {
if ( arguments != NULL ) {
jvmtiDeallocate(arguments);
}
return JNI_TRUE;
}
if (inStream_command(in) == JDWP_COMMAND(ClassType, NewInstance)) {
invokeType = INVOKE_CONSTRUCTOR;
} else if (inStream_command(in) == JDWP_COMMAND(ClassType, InvokeMethod)) {
invokeType = INVOKE_STATIC;
} else if (inStream_command(in) == JDWP_COMMAND(InterfaceType, InvokeMethod)) {
invokeType = INVOKE_STATIC;
} else if (inStream_command(in) == JDWP_COMMAND(ObjectReference, InvokeMethod)) {
invokeType = INVOKE_INSTANCE;
} else {
outStream_setError(out, JDWP_ERROR(INTERNAL));
if ( arguments != NULL ) {
jvmtiDeallocate(arguments);
}
return JNI_TRUE;
}
/*
* Request the invoke. If there are no errors in the request,
* the interrupting thread will actually do the invoke and a
* reply will be generated subsequently, so we don't reply here.
*/
error = invoker_requestInvoke(invokeType, (jbyte)options, inStream_id(in),
thread, clazz, method,
instance, arguments, argumentCount);
if (error != JVMTI_ERROR_NONE) {
outStream_setError(out, map2jdwpError(error));
if ( arguments != NULL ) {
jvmtiDeallocate(arguments);
}
return JNI_TRUE;
}
return JNI_FALSE; /* Don't reply */
}
jint
uniqueID(void)
{
static jint currentID = 0;
// ANDROID-CHANGED: on android we sometimes need to share these id's with DDMS traffic that is
// multiplexed on the same connection. Since we don't have any way to know which id's are taken
// by DDMS we will instead partition the ids between them. All positive ids (sign-bit == 0) are
// reserved for libjdwp. DDMS will take ids with sign-bit == 1. This condition is not expected
// to ever be true on a normal debugging session.
if (currentID < 0) {
currentID = 0;
}
return currentID++;
}
int
filterDebugThreads(jthread *threads, int count)
{
int i;
int current;
/* Squish out all of the debugger-spawned threads */
for (i = 0, current = 0; i < count; i++) {
jthread thread = threads[i];
if (!threadControl_isDebugThread(thread)) {
if (i > current) {
threads[current] = thread;
}
current++;
}
}
return current;
}
jbyte
referenceTypeTag(jclass clazz)
{
jbyte tag;
if (isInterface(clazz)) {
tag = JDWP_TYPE_TAG(INTERFACE);
} else if (isArrayClass(clazz)) {
tag = JDWP_TYPE_TAG(ARRAY);
} else {
tag = JDWP_TYPE_TAG(CLASS);
}
return tag;
}
/**
* Get field modifiers
*/
jvmtiError
fieldModifiers(jclass clazz, jfieldID field, jint *pmodifiers)
{
jvmtiError error;
*pmodifiers = 0;
error = JVMTI_FUNC_PTR(gdata->jvmti,GetFieldModifiers)
(gdata->jvmti, clazz, field, pmodifiers);
return error;
}
/**
* Get method modifiers
*/
jvmtiError
methodModifiers(jmethodID method, jint *pmodifiers)
{
jvmtiError error;
*pmodifiers = 0;
error = JVMTI_FUNC_PTR(gdata->jvmti,GetMethodModifiers)
(gdata->jvmti, method, pmodifiers);
return error;
}
/* Returns a local ref to the declaring class for a method, or NULL. */
jvmtiError
methodClass(jmethodID method, jclass *pclazz)
{
jvmtiError error;
*pclazz = NULL;
error = FUNC_PTR(gdata->jvmti,GetMethodDeclaringClass)
(gdata->jvmti, method, pclazz);
return error;
}
/* Returns a local ref to the declaring class for a method, or NULL. */
jvmtiError
methodLocation(jmethodID method, jlocation *ploc1, jlocation *ploc2)
{
jvmtiError error;
error = JVMTI_FUNC_PTR(gdata->jvmti,GetMethodLocation)
(gdata->jvmti, method, ploc1, ploc2);
return error;
}
/**
* Get method signature
*/
jvmtiError
methodSignature(jmethodID method,
char **pname, char **psignature, char **pgeneric_signature)
{
jvmtiError error;
char *name = NULL;
char *signature = NULL;
char *generic_signature = NULL;
error = FUNC_PTR(gdata->jvmti,GetMethodName)
(gdata->jvmti, method, &name, &signature, &generic_signature);
if ( pname != NULL ) {
*pname = name;
} else if ( name != NULL ) {
jvmtiDeallocate(name);
}
if ( psignature != NULL ) {
*psignature = signature;
} else if ( signature != NULL ) {
jvmtiDeallocate(signature);
}
if ( pgeneric_signature != NULL ) {
*pgeneric_signature = generic_signature;
} else if ( generic_signature != NULL ) {
jvmtiDeallocate(generic_signature);
}
return error;
}
/*
* Get the return type key of the method
* V or B C D F I J S Z L [
*/
jvmtiError
methodReturnType(jmethodID method, char *typeKey)
{
char *signature;
jvmtiError error;
signature = NULL;
error = methodSignature(method, NULL, &signature, NULL);
if (error == JVMTI_ERROR_NONE) {
if (signature == NULL ) {
error = AGENT_ERROR_INVALID_TAG;
} else {
char * xx;
xx = strchr(signature, ')');
if (xx == NULL || *(xx + 1) == 0) {
error = AGENT_ERROR_INVALID_TAG;
} else {
*typeKey = *(xx + 1);
}
jvmtiDeallocate(signature);
}
}
return error;
}
/**
* Return class loader for a class (must be inside a WITH_LOCAL_REFS)
*/
jvmtiError
classLoader(jclass clazz, jobject *pclazz)
{
jvmtiError error;
*pclazz = NULL;
error = JVMTI_FUNC_PTR(gdata->jvmti,GetClassLoader)
(gdata->jvmti, clazz, pclazz);
return error;
}
/**
* Get field signature
*/
jvmtiError
fieldSignature(jclass clazz, jfieldID field,
char **pname, char **psignature, char **pgeneric_signature)
{
jvmtiError error;
char *name = NULL;
char *signature = NULL;
char *generic_signature = NULL;
error = JVMTI_FUNC_PTR(gdata->jvmti,GetFieldName)
(gdata->jvmti, clazz, field, &name, &signature, &generic_signature);
if ( pname != NULL ) {
*pname = name;
} else if ( name != NULL ) {
jvmtiDeallocate(name);
}
if ( psignature != NULL ) {
*psignature = signature;
} else if ( signature != NULL ) {
jvmtiDeallocate(signature);
}
if ( pgeneric_signature != NULL ) {
*pgeneric_signature = generic_signature;
} else if ( generic_signature != NULL ) {
jvmtiDeallocate(generic_signature);
}
return error;
}
JNIEnv *
getEnv(void)
{
JNIEnv *env = NULL;
jint rc;
rc = FUNC_PTR(gdata->jvm,GetEnv)
(gdata->jvm, (void **)&env, JNI_VERSION_1_2);
if (rc != JNI_OK) {
ERROR_MESSAGE(("JDWP Unable to get JNI 1.2 environment, jvm->GetEnv() return code = %d",
rc));
EXIT_ERROR(AGENT_ERROR_NO_JNI_ENV,NULL);
}
return env;
}
jvmtiError
spawnNewThread(jvmtiStartFunction func, void *arg, char *name)
{
JNIEnv *env = getEnv();
jvmtiError error;
LOG_MISC(("Spawning new thread: %s", name));
WITH_LOCAL_REFS(env, 3) {
jthread thread;
jstring nameString;
nameString = JNI_FUNC_PTR(env,NewStringUTF)(env, name);
if (JNI_FUNC_PTR(env,ExceptionOccurred)(env)) {
JNI_FUNC_PTR(env,ExceptionClear)(env);
error = AGENT_ERROR_OUT_OF_MEMORY;
goto err;
}
thread = JNI_FUNC_PTR(env,NewObject)
(env, gdata->threadClass, gdata->threadConstructor,
gdata->systemThreadGroup, nameString);
if (JNI_FUNC_PTR(env,ExceptionOccurred)(env)) {
JNI_FUNC_PTR(env,ExceptionClear)(env);
error = AGENT_ERROR_OUT_OF_MEMORY;
goto err;
}
/*
* Make the debugger thread a daemon
*/
JNI_FUNC_PTR(env,CallVoidMethod)
(env, thread, gdata->threadSetDaemon, JNI_TRUE);
if (JNI_FUNC_PTR(env,ExceptionOccurred)(env)) {
JNI_FUNC_PTR(env,ExceptionClear)(env);
error = AGENT_ERROR_JNI_EXCEPTION;
goto err;
}
error = threadControl_addDebugThread(thread);
if (error == JVMTI_ERROR_NONE) {
/*
* Debugger threads need cycles in all sorts of strange
* situations (e.g. infinite cpu-bound loops), so give the
* thread a high priority. Note that if the VM has an application
* thread running at the max priority, there is still a chance
* that debugger threads will be starved. (There needs to be
* a way to give debugger threads a priority higher than any
* application thread).
*/
error = JVMTI_FUNC_PTR(gdata->jvmti,RunAgentThread)
(gdata->jvmti, thread, func, arg,
JVMTI_THREAD_MAX_PRIORITY);
}
err: ;
} END_WITH_LOCAL_REFS(env);
return error;
}
jvmtiError
jvmtiGetCapabilities(jvmtiCapabilities *caps)
{
if ( gdata->vmDead ) {
return AGENT_ERROR_VM_DEAD;
}
if (!gdata->haveCachedJvmtiCapabilities) {
jvmtiError error;
error = JVMTI_FUNC_PTR(gdata->jvmti,GetCapabilities)
(gdata->jvmti, &(gdata->cachedJvmtiCapabilities));
if (error != JVMTI_ERROR_NONE) {
return error;
}
gdata->haveCachedJvmtiCapabilities = JNI_TRUE;
}
*caps = gdata->cachedJvmtiCapabilities;
return JVMTI_ERROR_NONE;
}
static 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) {
EXIT_ERROR(error, "on getting the JVMTI version number");
}
}
return gdata->cachedJvmtiVersion;
}
jint
jvmtiMajorVersion(void)
{
return (jvmtiVersion() & JVMTI_VERSION_MASK_MAJOR)
>> JVMTI_VERSION_SHIFT_MAJOR;
}
jint
jvmtiMinorVersion(void)
{
return (jvmtiVersion() & JVMTI_VERSION_MASK_MINOR)
>> JVMTI_VERSION_SHIFT_MINOR;
}
jint
jvmtiMicroVersion(void)
{
return (jvmtiVersion() & JVMTI_VERSION_MASK_MICRO)
>> JVMTI_VERSION_SHIFT_MICRO;
}
jboolean
canSuspendResumeThreadLists(void)
{
jvmtiError error;
jvmtiCapabilities cap;
error = jvmtiGetCapabilities(&cap);
return (error == JVMTI_ERROR_NONE && cap.can_suspend);
}
jvmtiError
getSourceDebugExtension(jclass clazz, char **extensionPtr)
{
return JVMTI_FUNC_PTR(gdata->jvmti,GetSourceDebugExtension)
(gdata->jvmti, clazz, extensionPtr);
}
/*
* Convert the signature "Ljava/lang/Foo;" to a
* classname "java.lang.Foo" compatible with the pattern.
* Signature is overwritten in-place.
*/
void
convertSignatureToClassname(char *convert)
{
char *p;
p = convert + 1;
while ((*p != ';') && (*p != '\0')) {
char c = *p;
if (c == '/') {
*(p-1) = '.';
} else {
*(p-1) = c;
}
p++;
}
*(p-1) = '\0';
}
static void
handleInterrupt(void)
{
/*
* An interrupt is handled:
*
* 1) for running application threads by deferring the interrupt
* until the current event handler has concluded.
*
* 2) for debugger threads by ignoring the interrupt; this is the
* most robust solution since debugger threads don't use interrupts
* to signal any condition.
*
* 3) for application threads that have not started or already
* ended by ignoring the interrupt. In the former case, the application
* is relying on timing to determine whether or not the thread sees
* the interrupt; in the latter case, the interrupt is meaningless.
*/
jthread thread = threadControl_currentThread();
if ((thread != NULL) && (!threadControl_isDebugThread(thread))) {
threadControl_setPendingInterrupt(thread);
}
}
static jvmtiError
ignore_vm_death(jvmtiError error)
{
if (error == JVMTI_ERROR_WRONG_PHASE) {
LOG_MISC(("VM_DEAD, in debugMonitor*()?"));
return JVMTI_ERROR_NONE; /* JVMTI does this, not JVMDI? */
}
return error;
}
void
debugMonitorEnter(jrawMonitorID monitor)
{
jvmtiError error;
while (JNI_TRUE) {
error = FUNC_PTR(gdata->jvmti,RawMonitorEnter)
(gdata->jvmti, monitor);
error = ignore_vm_death(error);
if (error == JVMTI_ERROR_INTERRUPT) {
handleInterrupt();
} else {
break;
}
}
if (error != JVMTI_ERROR_NONE) {
EXIT_ERROR(error, "on raw monitor enter");
}
}
void
debugMonitorExit(jrawMonitorID monitor)
{
jvmtiError error;
error = FUNC_PTR(gdata->jvmti,RawMonitorExit)
(gdata->jvmti, monitor);
error = ignore_vm_death(error);
if (error != JVMTI_ERROR_NONE) {
EXIT_ERROR(error, "on raw monitor exit");
}
}
void
debugMonitorWait(jrawMonitorID monitor)
{
jvmtiError error;
error = FUNC_PTR(gdata->jvmti,RawMonitorWait)
(gdata->jvmti, monitor, ((jlong)(-1)));
/*
* According to the JLS (17.8), here we have
* either :
* a- been notified
* b- gotten a suprious wakeup
* c- been interrupted
* If both a and c have happened, the VM must choose
* which way to return - a or c. If it chooses c
* then the notify is gone - either to some other
* thread that is also waiting, or it is dropped
* on the floor.
*
* a is what we expect. b won't hurt us any -
* callers should be programmed to handle
* spurious wakeups. In case of c,
* then the interrupt has been cleared, but
* we don't want to consume it. It came from
* user code and is intended for user code, not us.
* So, we will remember that the interrupt has
* occurred and re-activate it when this thread
* goes back into user code.
* That being said, what do we do here? Since
* we could have been notified too, here we will
* just pretend that we have been. It won't hurt
* anything to return in the same way as if
* we were notified since callers have to be able to
* handle spurious wakeups anyway.
*/
if (error == JVMTI_ERROR_INTERRUPT) {
handleInterrupt();
error = JVMTI_ERROR_NONE;
}
error = ignore_vm_death(error);
if (error != JVMTI_ERROR_NONE) {
EXIT_ERROR(error, "on raw monitor wait");
}
}
void
debugMonitorTimedWait(jrawMonitorID monitor, jlong millis)
{
jvmtiError error;
error = FUNC_PTR(gdata->jvmti,RawMonitorWait)
(gdata->jvmti, monitor, millis);
if (error == JVMTI_ERROR_INTERRUPT) {
/* See comment above */
handleInterrupt();
error = JVMTI_ERROR_NONE;
}
error = ignore_vm_death(error);
if (error != JVMTI_ERROR_NONE) {
EXIT_ERROR(error, "on raw monitor timed wait");
}
}
void
debugMonitorNotify(jrawMonitorID monitor)
{
jvmtiError error;
error = FUNC_PTR(gdata->jvmti,RawMonitorNotify)
(gdata->jvmti, monitor);
error = ignore_vm_death(error);
if (error != JVMTI_ERROR_NONE) {
EXIT_ERROR(error, "on raw monitor notify");
}
}
void
debugMonitorNotifyAll(jrawMonitorID monitor)
{
jvmtiError error;
error = FUNC_PTR(gdata->jvmti,RawMonitorNotifyAll)
(gdata->jvmti, monitor);
error = ignore_vm_death(error);
if (error != JVMTI_ERROR_NONE) {
EXIT_ERROR(error, "on raw monitor notify all");
}
}
jrawMonitorID
debugMonitorCreate(char *name)
{
jrawMonitorID monitor;
jvmtiError error;
error = FUNC_PTR(gdata->jvmti,CreateRawMonitor)
(gdata->jvmti, name, &monitor);
if (error != JVMTI_ERROR_NONE) {
EXIT_ERROR(error, "on creation of a raw monitor");
}
return monitor;
}
void
debugMonitorDestroy(jrawMonitorID monitor)
{
jvmtiError error;
error = FUNC_PTR(gdata->jvmti,DestroyRawMonitor)
(gdata->jvmti, monitor);
error = ignore_vm_death(error);
if (error != JVMTI_ERROR_NONE) {
EXIT_ERROR(error, "on destruction of raw monitor");
}
}
/**
* Return array of all threads (must be inside a WITH_LOCAL_REFS)
*/
jthread *
allThreads(jint *count)
{
jthread *threads;
jvmtiError error;
*count = 0;
threads = NULL;
error = JVMTI_FUNC_PTR(gdata->jvmti,GetAllThreads)
(gdata->jvmti, count, &threads);
if (error == AGENT_ERROR_OUT_OF_MEMORY) {
return NULL; /* Let caller deal with no memory? */
}
if (error != JVMTI_ERROR_NONE) {
EXIT_ERROR(error, "getting all threads");
}
return threads;
}
/**
* Fill the passed in structure with thread group info.
* name field is JVMTI allocated. parent is global ref.
*/
void
threadGroupInfo(jthreadGroup group, jvmtiThreadGroupInfo *info)
{
jvmtiError error;
error = JVMTI_FUNC_PTR(gdata->jvmti,GetThreadGroupInfo)
(gdata->jvmti, group, info);
if (error != JVMTI_ERROR_NONE) {
EXIT_ERROR(error, "on getting thread group info");
}
}
/**
* Return class signature string
*/
jvmtiError
classSignature(jclass clazz, char **psignature, char **pgeneric_signature)
{
jvmtiError error;
char *signature = NULL;
/*
* pgeneric_signature can be NULL, and GetClassSignature
* accepts NULL.
*/
error = FUNC_PTR(gdata->jvmti,GetClassSignature)
(gdata->jvmti, clazz, &signature, pgeneric_signature);
if ( psignature != NULL ) {
*psignature = signature;
} else if ( signature != NULL ) {
jvmtiDeallocate(signature);
}
return error;
}
/* Get class name (not signature) */
char *
getClassname(jclass clazz)
{
char *classname;
classname = NULL;
if ( clazz != NULL ) {
if (classSignature(clazz, &classname, NULL) != JVMTI_ERROR_NONE) {
classname = NULL;
} else {
/* Convert in place */
convertSignatureToClassname(classname);
}
}
return classname; /* Caller must free this memory */
}
void
writeGenericSignature(PacketOutputStream *out, char *genericSignature)
{
if (genericSignature == NULL) {
(void)outStream_writeString(out, "");
} else {
(void)outStream_writeString(out, genericSignature);
}
}
jint
classStatus(jclass clazz)
{
jint status;
jvmtiError error;
error = JVMTI_FUNC_PTR(gdata->jvmti,GetClassStatus)
(gdata->jvmti, clazz, &status);
if (error != JVMTI_ERROR_NONE) {
EXIT_ERROR(error, "on getting class status");
}
return status;
}
static jboolean
isArrayClass(jclass clazz)
{
jboolean isArray = JNI_FALSE;
jvmtiError error;
error = JVMTI_FUNC_PTR(gdata->jvmti,IsArrayClass)
(gdata->jvmti, clazz, &isArray);
if (error != JVMTI_ERROR_NONE) {
EXIT_ERROR(error, "on checking for an array class");
}
return isArray;
}
static jboolean
isInterface(jclass clazz)
{
jboolean isInterface = JNI_FALSE;
jvmtiError error;
error = JVMTI_FUNC_PTR(gdata->jvmti,IsInterface)
(gdata->jvmti, clazz, &isInterface);
if (error != JVMTI_ERROR_NONE) {
EXIT_ERROR(error, "on checking for an interface");
}
return isInterface;
}
jvmtiError
isFieldSynthetic(jclass clazz, jfieldID field, jboolean *psynthetic)
{
jvmtiError error;
error = JVMTI_FUNC_PTR(gdata->jvmti,IsFieldSynthetic)
(gdata->jvmti, clazz, field, psynthetic);
if ( error == JVMTI_ERROR_MUST_POSSESS_CAPABILITY ) {
/* If the query is not supported, we assume it is not synthetic. */
*psynthetic = JNI_FALSE;
return JVMTI_ERROR_NONE;
}
return error;
}
jvmtiError
isMethodSynthetic(jmethodID method, jboolean *psynthetic)
{
jvmtiError error;
error = JVMTI_FUNC_PTR(gdata->jvmti,IsMethodSynthetic)
(gdata->jvmti, method, psynthetic);
if ( error == JVMTI_ERROR_MUST_POSSESS_CAPABILITY ) {
/* If the query is not supported, we assume it is not synthetic. */
*psynthetic = JNI_FALSE;
return JVMTI_ERROR_NONE;
}
return error;
}
jboolean
isMethodNative(jmethodID method)
{
jboolean isNative = JNI_FALSE;
jvmtiError error;
error = JVMTI_FUNC_PTR(gdata->jvmti,IsMethodNative)
(gdata->jvmti, method, &isNative);
if (error != JVMTI_ERROR_NONE) {
EXIT_ERROR(error, "on checking for a native interface");
}
return isNative;
}
jboolean
isSameObject(JNIEnv *env, jobject o1, jobject o2)
{
if ( o1==o2 ) {
return JNI_TRUE;
}
return FUNC_PTR(env,IsSameObject)(env, o1, o2);
}
jint
objectHashCode(jobject object)
{
jint hashCode = 0;
jvmtiError error;
if ( object!=NULL ) {
error = JVMTI_FUNC_PTR(gdata->jvmti,GetObjectHashCode)
(gdata->jvmti, object, &hashCode);
if (error != JVMTI_ERROR_NONE) {
EXIT_ERROR(error, "on getting an object hash code");
}
}
return hashCode;
}
/* Get all implemented interfaces (must be inside a WITH_LOCAL_REFS) */
jvmtiError
allInterfaces(jclass clazz, jclass **ppinterfaces, jint *pcount)
{
jvmtiError error;
*pcount = 0;
*ppinterfaces = NULL;
error = JVMTI_FUNC_PTR(gdata->jvmti,GetImplementedInterfaces)
(gdata->jvmti, clazz, pcount, ppinterfaces);
return error;
}
/* Get all loaded classes (must be inside a WITH_LOCAL_REFS) */
jvmtiError
allLoadedClasses(jclass **ppclasses, jint *pcount)
{
jvmtiError error;
*pcount = 0;
*ppclasses = NULL;
error = JVMTI_FUNC_PTR(gdata->jvmti,GetLoadedClasses)
(gdata->jvmti, pcount, ppclasses);
return error;
}
/* Get all loaded classes for a loader (must be inside a WITH_LOCAL_REFS) */
jvmtiError
allClassLoaderClasses(jobject loader, jclass **ppclasses, jint *pcount)
{
jvmtiError error;
*pcount = 0;
*ppclasses = NULL;
error = JVMTI_FUNC_PTR(gdata->jvmti,GetClassLoaderClasses)
(gdata->jvmti, loader, pcount, ppclasses);
return error;
}
static jboolean
is_a_nested_class(char *outer_sig, int outer_sig_len, char *sig, int sep)
{
char *inner;
/* Assumed outer class signature is "LOUTERCLASSNAME;"
* inner class signature is "LOUTERCLASSNAME$INNERNAME;"
*
* INNERNAME can take the form:
* [0-9][1-9]* anonymous class somewhere in the file
* [0-9][1-9]*NAME local class somewhere in the OUTER class
* NAME nested class in OUTER
*
* If NAME itself contains a $ (sep) then classname is further nested
* inside another class.
*
*/
/* Check prefix first */
if ( strncmp(sig, outer_sig, outer_sig_len-1) != 0 ) {
return JNI_FALSE;
}
/* Prefix must be followed by a $ (sep) */
if ( sig[outer_sig_len-1] != sep ) {
return JNI_FALSE; /* No sep follows the match, must not be nested. */
}
/* Walk past any digits, if we reach the end, must be pure anonymous */
inner = sig + outer_sig_len;
#if 1 /* We want to return local classes */
while ( *inner && isdigit(*inner) ) {
inner++;
}
/* But anonymous class names can't be trusted. */
if ( *inner == ';' ) {
return JNI_FALSE; /* A pure anonymous class */
}
#else
if ( *inner && isdigit(*inner) ) {
return JNI_FALSE; /* A pure anonymous or local class */
}
#endif
/* Nested deeper? */
if ( strchr(inner, sep) != NULL ) {
return JNI_FALSE; /* Nested deeper than we want? */
}
return JNI_TRUE;
}
/* Get all nested classes for a class (must be inside a WITH_LOCAL_REFS) */
jvmtiError
allNestedClasses(jclass parent_clazz, jclass **ppnested, jint *pcount)
{
jvmtiError error;
jobject parent_loader;
jclass *classes;
char *signature;
size_t len;
jint count;
jint ncount;
int i;
*ppnested = NULL;
*pcount = 0;
parent_loader = NULL;
classes = NULL;
signature = NULL;
count = 0;
ncount = 0;
error = classLoader(parent_clazz, &parent_loader);
if (error != JVMTI_ERROR_NONE) {
return error;
}
error = classSignature(parent_clazz, &signature, NULL);
if (error != JVMTI_ERROR_NONE) {
return error;
}
len = strlen(signature);
error = allClassLoaderClasses(parent_loader, &classes, &count);
if ( error != JVMTI_ERROR_NONE ) {
jvmtiDeallocate(signature);
return error;
}
for (i=0; i<count; i++) {
jclass clazz;
char *candidate_signature;
clazz = classes[i];
candidate_signature = NULL;
error = classSignature(clazz, &candidate_signature, NULL);
if (error != JVMTI_ERROR_NONE) {
break;
}
if ( is_a_nested_class(signature, (int)len, candidate_signature, '$') ||
is_a_nested_class(signature, (int)len, candidate_signature, '#') ) {
/* Float nested classes to top */
classes[i] = classes[ncount];
classes[ncount++] = clazz;
}
jvmtiDeallocate(candidate_signature);
}
jvmtiDeallocate(signature);
if ( count != 0 && ncount == 0 ) {
jvmtiDeallocate(classes);
classes = NULL;
}
*ppnested = classes;
*pcount = ncount;
return error;
}
void
createLocalRefSpace(JNIEnv *env, jint capacity)
{
/*
* Save current exception since it might get overwritten by
* the calls below. Note we must depend on space in the existing
* frame because asking for a new frame may generate an exception.
*/
jobject throwable = JNI_FUNC_PTR(env,ExceptionOccurred)(env);
/*
* Use the current frame if necessary; otherwise create a new one
*/
if (JNI_FUNC_PTR(env,PushLocalFrame)(env, capacity) < 0) {
EXIT_ERROR(AGENT_ERROR_OUT_OF_MEMORY,"PushLocalFrame: Unable to push JNI frame");
}
/*
* TO DO: This could be more efficient if it used EnsureLocalCapacity,
* but that would not work if two functions on the call stack
* use this function. We would need to either track reserved
* references on a per-thread basis or come up with a convention
* that would prevent two functions from depending on this function
* at the same time.
*/
/*
* Restore exception state from before call
*/
if (throwable != NULL) {
JNI_FUNC_PTR(env,Throw)(env, throwable);
} else {
JNI_FUNC_PTR(env,ExceptionClear)(env);
}
}
jboolean
isClass(jobject object)
{
JNIEnv *env = getEnv();
return JNI_FUNC_PTR(env,IsInstanceOf)(env, object, gdata->classClass);
}
jboolean
isThread(jobject object)
{
JNIEnv *env = getEnv();
return JNI_FUNC_PTR(env,IsInstanceOf)(env, object, gdata->threadClass);
}
jboolean
isThreadGroup(jobject object)
{
JNIEnv *env = getEnv();
return JNI_FUNC_PTR(env,IsInstanceOf)(env, object, gdata->threadGroupClass);
}
jboolean
isString(jobject object)
{
JNIEnv *env = getEnv();
return JNI_FUNC_PTR(env,IsInstanceOf)(env, object, gdata->stringClass);
}
jboolean
isClassLoader(jobject object)
{
JNIEnv *env = getEnv();
return JNI_FUNC_PTR(env,IsInstanceOf)(env, object, gdata->classLoaderClass);
}
jboolean
isArray(jobject object)
{
JNIEnv *env = getEnv();
jboolean is;
WITH_LOCAL_REFS(env, 1) {
jclass clazz;
clazz = JNI_FUNC_PTR(env,GetObjectClass)(env, object);
is = isArrayClass(clazz);
} END_WITH_LOCAL_REFS(env);
return is;
}
/**
* Return property value as jstring
*/
static jstring
getPropertyValue(JNIEnv *env, char *propertyName)
{
jstring valueString;
jstring nameString;
valueString = NULL;
/* Create new String object to hold the property name */
nameString = JNI_FUNC_PTR(env,NewStringUTF)(env, propertyName);
if (JNI_FUNC_PTR(env,ExceptionOccurred)(env)) {
JNI_FUNC_PTR(env,ExceptionClear)(env);
/* NULL will be returned below */
} else {
/* Call valueString = System.getProperty(nameString) */
valueString = JNI_FUNC_PTR(env,CallStaticObjectMethod)
(env, gdata->systemClass, gdata->systemGetProperty, nameString);
if (JNI_FUNC_PTR(env,ExceptionOccurred)(env)) {
JNI_FUNC_PTR(env,ExceptionClear)(env);
valueString = NULL;
}
}
return valueString;
}
/**
* Set an agent property
*/
void
setAgentPropertyValue(JNIEnv *env, char *propertyName, char* propertyValue)
{
jstring nameString;
jstring valueString;
if (gdata->agent_properties == NULL) {
/* VMSupport doesn't exist; so ignore */
return;
}
/* Create jstrings for property name and value */
nameString = JNI_FUNC_PTR(env,NewStringUTF)(env, propertyName);
if (nameString != NULL) {
valueString = JNI_FUNC_PTR(env,NewStringUTF)(env, propertyValue);
if (valueString != NULL) {
/* invoke Properties.setProperty */
JNI_FUNC_PTR(env,CallObjectMethod)
(env, gdata->agent_properties,
gdata->setProperty,
nameString, valueString);
}
}
if (JNI_FUNC_PTR(env,ExceptionOccurred)(env)) {
JNI_FUNC_PTR(env,ExceptionClear)(env);
}
}
/**
* Return property value as JDWP allocated string in UTF8 encoding
*/
static char *
getPropertyUTF8(JNIEnv *env, char *propertyName)
{
jvmtiError error;
char *value;
value = NULL;
error = JVMTI_FUNC_PTR(gdata->jvmti,GetSystemProperty)
(gdata->jvmti, (const char *)propertyName, &value);
if (error != JVMTI_ERROR_NONE) {
jstring valueString;
value = NULL;
valueString = getPropertyValue(env, propertyName);
if (valueString != NULL) {
const char *utf;
/* Get the UTF8 encoding for this property value string */
utf = JNI_FUNC_PTR(env,GetStringUTFChars)(env, valueString, NULL);
/* Make a copy for returning, release the JNI copy */
value = jvmtiAllocate((int)strlen(utf) + 1);
if (value != NULL) {
(void)strcpy(value, utf);
}
JNI_FUNC_PTR(env,ReleaseStringUTFChars)(env, valueString, utf);
}
}
if ( value == NULL ) {
ERROR_MESSAGE(("JDWP Can't get property value for %s", propertyName));
EXIT_ERROR(AGENT_ERROR_NULL_POINTER,NULL);
}
return value;
}
jboolean
isMethodObsolete(jmethodID method)
{
jvmtiError error;
jboolean obsolete = JNI_TRUE;
if ( method != NULL ) {
error = JVMTI_FUNC_PTR(gdata->jvmti,IsMethodObsolete)
(gdata->jvmti, method, &obsolete);
if (error != JVMTI_ERROR_NONE) {
obsolete = JNI_TRUE;
}
}
return obsolete;
}
/* Get the jvmti environment to be used with tags
* ANDROID_CHANGED: Expose this function publicly for use with class-track and other places.
*/
jvmtiEnv *
getSpecialJvmti(void)
{
jvmtiEnv *jvmti;
jvmtiError error;
int rc;
/* Get one time use JVMTI Env */
jvmtiCapabilities caps;
// ANDROID-CHANGED: Always get a new jvmti-env using the same version as the main env. This
// means that everything will still work even when using a best-effort ArtTiEnv.
rc = JVM_FUNC_PTR(gdata->jvm,GetEnv)
(gdata->jvm, (void **)&jvmti, jvmtiVersion());
if (rc != JNI_OK) {
return NULL;
}
(void)memset(&caps, 0, (int)sizeof(caps));
caps.can_tag_objects = 1;
error = JVMTI_FUNC_PTR(jvmti,AddCapabilities)(jvmti, &caps);
if ( error != JVMTI_ERROR_NONE ) {
return NULL;
}
return jvmti;
}
void
writeCodeLocation(PacketOutputStream *out, jclass clazz,
jmethodID method, jlocation location)
{
jbyte tag;
if (clazz != NULL) {
tag = referenceTypeTag(clazz);
} else {
tag = JDWP_TYPE_TAG(CLASS);
}
(void)outStream_writeByte(out, tag);
(void)outStream_writeObjectRef(getEnv(), out, clazz);
(void)outStream_writeMethodID(out, isMethodObsolete(method)?NULL:method);
(void)outStream_writeLocation(out, location);
}
void *
jvmtiAllocate(jint numBytes)
{
void *ptr;
jvmtiError error;
if ( numBytes == 0 ) {
return NULL;
}
error = FUNC_PTR(gdata->jvmti,Allocate)
(gdata->jvmti, numBytes, (unsigned char**)&ptr);
if (error != JVMTI_ERROR_NONE ) {
EXIT_ERROR(error, "Can't allocate jvmti memory");
}
return ptr;
}
void
jvmtiDeallocate(void *ptr)
{
jvmtiError error;
if ( ptr == NULL ) {
return;
}
error = FUNC_PTR(gdata->jvmti,Deallocate)
(gdata->jvmti, ptr);
if (error != JVMTI_ERROR_NONE ) {
EXIT_ERROR(error, "Can't deallocate jvmti memory");
}
}
/* Rarely needed, transport library uses JDWP errors, only use? */
jvmtiError
map2jvmtiError(jdwpError error)
{
switch ( error ) {
case JDWP_ERROR(NONE):
return JVMTI_ERROR_NONE;
case JDWP_ERROR(INVALID_THREAD):
return JVMTI_ERROR_INVALID_THREAD;
case JDWP_ERROR(INVALID_THREAD_GROUP):
return JVMTI_ERROR_INVALID_THREAD_GROUP;
case JDWP_ERROR(INVALID_PRIORITY):
return JVMTI_ERROR_INVALID_PRIORITY;
case JDWP_ERROR(THREAD_NOT_SUSPENDED):
return JVMTI_ERROR_THREAD_NOT_SUSPENDED;
case JDWP_ERROR(THREAD_SUSPENDED):
return JVMTI_ERROR_THREAD_SUSPENDED;
case JDWP_ERROR(INVALID_OBJECT):
return JVMTI_ERROR_INVALID_OBJECT;
case JDWP_ERROR(INVALID_CLASS):
return JVMTI_ERROR_INVALID_CLASS;
case JDWP_ERROR(CLASS_NOT_PREPARED):
return JVMTI_ERROR_CLASS_NOT_PREPARED;
case JDWP_ERROR(INVALID_METHODID):
return JVMTI_ERROR_INVALID_METHODID;
case JDWP_ERROR(INVALID_LOCATION):
return JVMTI_ERROR_INVALID_LOCATION;
case JDWP_ERROR(INVALID_FIELDID):
return JVMTI_ERROR_INVALID_FIELDID;
case JDWP_ERROR(INVALID_FRAMEID):
return AGENT_ERROR_INVALID_FRAMEID;
case JDWP_ERROR(NO_MORE_FRAMES):
return JVMTI_ERROR_NO_MORE_FRAMES;
case JDWP_ERROR(OPAQUE_FRAME):
return JVMTI_ERROR_OPAQUE_FRAME;
case JDWP_ERROR(NOT_CURRENT_FRAME):
return AGENT_ERROR_NOT_CURRENT_FRAME;
case JDWP_ERROR(TYPE_MISMATCH):
return JVMTI_ERROR_TYPE_MISMATCH;
case JDWP_ERROR(INVALID_SLOT):
return JVMTI_ERROR_INVALID_SLOT;
case JDWP_ERROR(DUPLICATE):
return JVMTI_ERROR_DUPLICATE;
case JDWP_ERROR(NOT_FOUND):
return JVMTI_ERROR_NOT_FOUND;
case JDWP_ERROR(INVALID_MONITOR):
return JVMTI_ERROR_INVALID_MONITOR;
case JDWP_ERROR(NOT_MONITOR_OWNER):
return JVMTI_ERROR_NOT_MONITOR_OWNER;
case JDWP_ERROR(INTERRUPT):
return JVMTI_ERROR_INTERRUPT;
case JDWP_ERROR(INVALID_CLASS_FORMAT):
return JVMTI_ERROR_INVALID_CLASS_FORMAT;
case JDWP_ERROR(CIRCULAR_CLASS_DEFINITION):
return JVMTI_ERROR_CIRCULAR_CLASS_DEFINITION;
case JDWP_ERROR(FAILS_VERIFICATION):
return JVMTI_ERROR_FAILS_VERIFICATION;
case JDWP_ERROR(ADD_METHOD_NOT_IMPLEMENTED):
return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_ADDED;
case JDWP_ERROR(SCHEMA_CHANGE_NOT_IMPLEMENTED):
return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_SCHEMA_CHANGED;
case JDWP_ERROR(INVALID_TYPESTATE):
return JVMTI_ERROR_INVALID_TYPESTATE;
case JDWP_ERROR(HIERARCHY_CHANGE_NOT_IMPLEMENTED):
return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_HIERARCHY_CHANGED;
case JDWP_ERROR(DELETE_METHOD_NOT_IMPLEMENTED):
return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_DELETED;
case JDWP_ERROR(UNSUPPORTED_VERSION):
return JVMTI_ERROR_UNSUPPORTED_VERSION;
case JDWP_ERROR(NAMES_DONT_MATCH):
return JVMTI_ERROR_NAMES_DONT_MATCH;
case JDWP_ERROR(CLASS_MODIFIERS_CHANGE_NOT_IMPLEMENTED):
return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_CLASS_MODIFIERS_CHANGED;
case JDWP_ERROR(METHOD_MODIFIERS_CHANGE_NOT_IMPLEMENTED):
return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_MODIFIERS_CHANGED;
case JDWP_ERROR(NOT_IMPLEMENTED):
return JVMTI_ERROR_NOT_AVAILABLE;
case JDWP_ERROR(NULL_POINTER):
return JVMTI_ERROR_NULL_POINTER;
case JDWP_ERROR(ABSENT_INFORMATION):
return JVMTI_ERROR_ABSENT_INFORMATION;
case JDWP_ERROR(INVALID_EVENT_TYPE):
return JVMTI_ERROR_INVALID_EVENT_TYPE;
case JDWP_ERROR(ILLEGAL_ARGUMENT):
return JVMTI_ERROR_ILLEGAL_ARGUMENT;
case JDWP_ERROR(OUT_OF_MEMORY):
return JVMTI_ERROR_OUT_OF_MEMORY;
case JDWP_ERROR(ACCESS_DENIED):
return JVMTI_ERROR_ACCESS_DENIED;
case JDWP_ERROR(VM_DEAD):
return JVMTI_ERROR_WRONG_PHASE;
case JDWP_ERROR(UNATTACHED_THREAD):
return JVMTI_ERROR_UNATTACHED_THREAD;
case JDWP_ERROR(INVALID_TAG):
return AGENT_ERROR_INVALID_TAG;
case JDWP_ERROR(ALREADY_INVOKING):
return AGENT_ERROR_ALREADY_INVOKING;
case JDWP_ERROR(INVALID_INDEX):
return AGENT_ERROR_INVALID_INDEX;
case JDWP_ERROR(INVALID_LENGTH):
return AGENT_ERROR_INVALID_LENGTH;
case JDWP_ERROR(INVALID_STRING):
return AGENT_ERROR_INVALID_STRING;
case JDWP_ERROR(INVALID_CLASS_LOADER):
return AGENT_ERROR_INVALID_CLASS_LOADER;
case JDWP_ERROR(INVALID_ARRAY):
return AGENT_ERROR_INVALID_ARRAY;
case JDWP_ERROR(TRANSPORT_LOAD):
return AGENT_ERROR_TRANSPORT_LOAD;
case JDWP_ERROR(TRANSPORT_INIT):
return AGENT_ERROR_TRANSPORT_INIT;
case JDWP_ERROR(NATIVE_METHOD):
return AGENT_ERROR_NATIVE_METHOD;
case JDWP_ERROR(INVALID_COUNT):
return AGENT_ERROR_INVALID_COUNT;
case JDWP_ERROR(INTERNAL):
return AGENT_ERROR_JDWP_INTERNAL;
}
return AGENT_ERROR_INTERNAL;
}
static jvmtiEvent index2jvmti[EI_max-EI_min+1];
static jdwpEvent index2jdwp [EI_max-EI_min+1];
void
eventIndexInit(void)
{
(void)memset(index2jvmti, 0, (int)sizeof(index2jvmti));
(void)memset(index2jdwp, 0, (int)sizeof(index2jdwp));
index2jvmti[EI_SINGLE_STEP -EI_min] = JVMTI_EVENT_SINGLE_STEP;
index2jvmti[EI_BREAKPOINT -EI_min] = JVMTI_EVENT_BREAKPOINT;
index2jvmti[EI_FRAME_POP -EI_min] = JVMTI_EVENT_FRAME_POP;
index2jvmti[EI_EXCEPTION -EI_min] = JVMTI_EVENT_EXCEPTION;
index2jvmti[EI_THREAD_START -EI_min] = JVMTI_EVENT_THREAD_START;
index2jvmti[EI_THREAD_END -EI_min] = JVMTI_EVENT_THREAD_END;
index2jvmti[EI_CLASS_PREPARE -EI_min] = JVMTI_EVENT_CLASS_PREPARE;
index2jvmti[EI_GC_FINISH -EI_min] = JVMTI_EVENT_GARBAGE_COLLECTION_FINISH;
index2jvmti[EI_CLASS_LOAD -EI_min] = JVMTI_EVENT_CLASS_LOAD;
index2jvmti[EI_FIELD_ACCESS -EI_min] = JVMTI_EVENT_FIELD_ACCESS;
index2jvmti[EI_FIELD_MODIFICATION -EI_min] = JVMTI_EVENT_FIELD_MODIFICATION;
index2jvmti[EI_EXCEPTION_CATCH -EI_min] = JVMTI_EVENT_EXCEPTION_CATCH;
index2jvmti[EI_METHOD_ENTRY -EI_min] = JVMTI_EVENT_METHOD_ENTRY;
index2jvmti[EI_METHOD_EXIT -EI_min] = JVMTI_EVENT_METHOD_EXIT;
index2jvmti[EI_MONITOR_CONTENDED_ENTER -EI_min] = JVMTI_EVENT_MONITOR_CONTENDED_ENTER;
index2jvmti[EI_MONITOR_CONTENDED_ENTERED -EI_min] = JVMTI_EVENT_MONITOR_CONTENDED_ENTERED;
index2jvmti[EI_MONITOR_WAIT -EI_min] = JVMTI_EVENT_MONITOR_WAIT;
index2jvmti[EI_MONITOR_WAITED -EI_min] = JVMTI_EVENT_MONITOR_WAITED;
index2jvmti[EI_VM_INIT -EI_min] = JVMTI_EVENT_VM_INIT;
index2jvmti[EI_VM_DEATH -EI_min] = JVMTI_EVENT_VM_DEATH;
index2jdwp[EI_SINGLE_STEP -EI_min] = JDWP_EVENT(SINGLE_STEP);
index2jdwp[EI_BREAKPOINT -EI_min] = JDWP_EVENT(BREAKPOINT);
index2jdwp[EI_FRAME_POP -EI_min] = JDWP_EVENT(FRAME_POP);
index2jdwp[EI_EXCEPTION -EI_min] = JDWP_EVENT(EXCEPTION);
index2jdwp[EI_THREAD_START -EI_min] = JDWP_EVENT(THREAD_START);
index2jdwp[EI_THREAD_END -EI_min] = JDWP_EVENT(THREAD_END);
index2jdwp[EI_CLASS_PREPARE -EI_min] = JDWP_EVENT(CLASS_PREPARE);
index2jdwp[EI_GC_FINISH -EI_min] = JDWP_EVENT(CLASS_UNLOAD);
index2jdwp[EI_CLASS_LOAD -EI_min] = JDWP_EVENT(CLASS_LOAD);
index2jdwp[EI_FIELD_ACCESS -EI_min] = JDWP_EVENT(FIELD_ACCESS);
index2jdwp[EI_FIELD_MODIFICATION -EI_min] = JDWP_EVENT(FIELD_MODIFICATION);
index2jdwp[EI_EXCEPTION_CATCH -EI_min] = JDWP_EVENT(EXCEPTION_CATCH);
index2jdwp[EI_METHOD_ENTRY -EI_min] = JDWP_EVENT(METHOD_ENTRY);
index2jdwp[EI_METHOD_EXIT -EI_min] = JDWP_EVENT(METHOD_EXIT);
index2jdwp[EI_MONITOR_CONTENDED_ENTER -EI_min] = JDWP_EVENT(MONITOR_CONTENDED_ENTER);
index2jdwp[EI_MONITOR_CONTENDED_ENTERED -EI_min] = JDWP_EVENT(MONITOR_CONTENDED_ENTERED);
index2jdwp[EI_MONITOR_WAIT -EI_min] = JDWP_EVENT(MONITOR_WAIT);
index2jdwp[EI_MONITOR_WAITED -EI_min] = JDWP_EVENT(MONITOR_WAITED);
index2jdwp[EI_VM_INIT -EI_min] = JDWP_EVENT(VM_INIT);
index2jdwp[EI_VM_DEATH -EI_min] = JDWP_EVENT(VM_DEATH);
}
jdwpEvent
eventIndex2jdwp(EventIndex i)
{
if ( i < EI_min || i > EI_max ) {
EXIT_ERROR(AGENT_ERROR_INVALID_INDEX,"bad EventIndex");
}
return index2jdwp[i-EI_min];
}
jvmtiEvent
eventIndex2jvmti(EventIndex i)
{
if ( i < EI_min || i > EI_max ) {
EXIT_ERROR(AGENT_ERROR_INVALID_INDEX,"bad EventIndex");
}
return index2jvmti[i-EI_min];
}
EventIndex
jdwp2EventIndex(jdwpEvent eventType)
{
switch ( eventType ) {
case JDWP_EVENT(SINGLE_STEP):
return EI_SINGLE_STEP;
case JDWP_EVENT(BREAKPOINT):
return EI_BREAKPOINT;
case JDWP_EVENT(FRAME_POP):
return EI_FRAME_POP;
case JDWP_EVENT(EXCEPTION):
return EI_EXCEPTION;
case JDWP_EVENT(THREAD_START):
return EI_THREAD_START;
case JDWP_EVENT(THREAD_END):
return EI_THREAD_END;
case JDWP_EVENT(CLASS_PREPARE):
return EI_CLASS_PREPARE;
case JDWP_EVENT(CLASS_UNLOAD):
return EI_GC_FINISH;
case JDWP_EVENT(CLASS_LOAD):
return EI_CLASS_LOAD;
case JDWP_EVENT(FIELD_ACCESS):
return EI_FIELD_ACCESS;
case JDWP_EVENT(FIELD_MODIFICATION):
return EI_FIELD_MODIFICATION;
case JDWP_EVENT(EXCEPTION_CATCH):
return EI_EXCEPTION_CATCH;
case JDWP_EVENT(METHOD_ENTRY):
return EI_METHOD_ENTRY;
case JDWP_EVENT(METHOD_EXIT):
return EI_METHOD_EXIT;
case JDWP_EVENT(METHOD_EXIT_WITH_RETURN_VALUE):
return EI_METHOD_EXIT;
case JDWP_EVENT(MONITOR_CONTENDED_ENTER):
return EI_MONITOR_CONTENDED_ENTER;
case JDWP_EVENT(MONITOR_CONTENDED_ENTERED):
return EI_MONITOR_CONTENDED_ENTERED;
case JDWP_EVENT(MONITOR_WAIT):
return EI_MONITOR_WAIT;
case JDWP_EVENT(MONITOR_WAITED):
return EI_MONITOR_WAITED;
case JDWP_EVENT(VM_INIT):
return EI_VM_INIT;
case JDWP_EVENT(VM_DEATH):
return EI_VM_DEATH;
default:
break;
}
/*
* Event type not recognized - don't exit with error as caller
* may wish to return error to debugger.
*/
return (EventIndex)0;
}
EventIndex
jvmti2EventIndex(jvmtiEvent kind)
{
switch ( kind ) {
case JVMTI_EVENT_SINGLE_STEP:
return EI_SINGLE_STEP;
case JVMTI_EVENT_BREAKPOINT:
return EI_BREAKPOINT;
case JVMTI_EVENT_FRAME_POP:
return EI_FRAME_POP;
case JVMTI_EVENT_EXCEPTION:
return EI_EXCEPTION;
case JVMTI_EVENT_THREAD_START:
return EI_THREAD_START;
case JVMTI_EVENT_THREAD_END:
return EI_THREAD_END;
case JVMTI_EVENT_CLASS_PREPARE:
return EI_CLASS_PREPARE;
case JVMTI_EVENT_GARBAGE_COLLECTION_FINISH:
return EI_GC_FINISH;
case JVMTI_EVENT_CLASS_LOAD:
return EI_CLASS_LOAD;
case JVMTI_EVENT_FIELD_ACCESS:
return EI_FIELD_ACCESS;
case JVMTI_EVENT_FIELD_MODIFICATION:
return EI_FIELD_MODIFICATION;
case JVMTI_EVENT_EXCEPTION_CATCH:
return EI_EXCEPTION_CATCH;
case JVMTI_EVENT_METHOD_ENTRY:
return EI_METHOD_ENTRY;
case JVMTI_EVENT_METHOD_EXIT:
return EI_METHOD_EXIT;
/*
* There is no JVMTI_EVENT_METHOD_EXIT_WITH_RETURN_VALUE.
* The normal JVMTI_EVENT_METHOD_EXIT always contains the return value.
*/
case JVMTI_EVENT_MONITOR_CONTENDED_ENTER:
return EI_MONITOR_CONTENDED_ENTER;
case JVMTI_EVENT_MONITOR_CONTENDED_ENTERED:
return EI_MONITOR_CONTENDED_ENTERED;
case JVMTI_EVENT_MONITOR_WAIT:
return EI_MONITOR_WAIT;
case JVMTI_EVENT_MONITOR_WAITED:
return EI_MONITOR_WAITED;
case JVMTI_EVENT_VM_INIT:
return EI_VM_INIT;
case JVMTI_EVENT_VM_DEATH:
return EI_VM_DEATH;
default:
EXIT_ERROR(AGENT_ERROR_INVALID_INDEX,"JVMTI to EventIndex mapping");
break;
}
return (EventIndex)0;
}
/* This routine is commonly used, maps jvmti and agent errors to the best
* jdwp error code we can map to.
*/
jdwpError
map2jdwpError(jvmtiError error)
{
switch ( error ) {
case JVMTI_ERROR_NONE:
return JDWP_ERROR(NONE);
case AGENT_ERROR_INVALID_THREAD:
case JVMTI_ERROR_INVALID_THREAD:
return JDWP_ERROR(INVALID_THREAD);
case JVMTI_ERROR_INVALID_THREAD_GROUP:
return JDWP_ERROR(INVALID_THREAD_GROUP);
case JVMTI_ERROR_INVALID_PRIORITY:
return JDWP_ERROR(INVALID_PRIORITY);
case JVMTI_ERROR_THREAD_NOT_SUSPENDED:
return JDWP_ERROR(THREAD_NOT_SUSPENDED);
case JVMTI_ERROR_THREAD_SUSPENDED:
return JDWP_ERROR(THREAD_SUSPENDED);
case JVMTI_ERROR_THREAD_NOT_ALIVE:
return JDWP_ERROR(INVALID_THREAD);
case AGENT_ERROR_INVALID_OBJECT:
case JVMTI_ERROR_INVALID_OBJECT:
return JDWP_ERROR(INVALID_OBJECT);
case JVMTI_ERROR_INVALID_CLASS:
return JDWP_ERROR(INVALID_CLASS);
case JVMTI_ERROR_CLASS_NOT_PREPARED:
return JDWP_ERROR(CLASS_NOT_PREPARED);
case JVMTI_ERROR_INVALID_METHODID:
return JDWP_ERROR(INVALID_METHODID);
case JVMTI_ERROR_INVALID_LOCATION:
return JDWP_ERROR(INVALID_LOCATION);
case JVMTI_ERROR_INVALID_FIELDID:
return JDWP_ERROR(INVALID_FIELDID);
case AGENT_ERROR_NO_MORE_FRAMES:
case JVMTI_ERROR_NO_MORE_FRAMES:
return JDWP_ERROR(NO_MORE_FRAMES);
case JVMTI_ERROR_OPAQUE_FRAME:
return JDWP_ERROR(OPAQUE_FRAME);
case JVMTI_ERROR_TYPE_MISMATCH:
return JDWP_ERROR(TYPE_MISMATCH);
case JVMTI_ERROR_INVALID_SLOT:
return JDWP_ERROR(INVALID_SLOT);
case JVMTI_ERROR_DUPLICATE:
return JDWP_ERROR(DUPLICATE);
case JVMTI_ERROR_NOT_FOUND:
return JDWP_ERROR(NOT_FOUND);
case JVMTI_ERROR_INVALID_MONITOR:
return JDWP_ERROR(INVALID_MONITOR);
case JVMTI_ERROR_NOT_MONITOR_OWNER:
return JDWP_ERROR(NOT_MONITOR_OWNER);
case JVMTI_ERROR_INTERRUPT:
return JDWP_ERROR(INTERRUPT);
case JVMTI_ERROR_INVALID_CLASS_FORMAT:
return JDWP_ERROR(INVALID_CLASS_FORMAT);
case JVMTI_ERROR_CIRCULAR_CLASS_DEFINITION:
return JDWP_ERROR(CIRCULAR_CLASS_DEFINITION);
case JVMTI_ERROR_FAILS_VERIFICATION:
return JDWP_ERROR(FAILS_VERIFICATION);
case JVMTI_ERROR_INVALID_TYPESTATE:
return JDWP_ERROR(INVALID_TYPESTATE);
case JVMTI_ERROR_UNSUPPORTED_VERSION:
return JDWP_ERROR(UNSUPPORTED_VERSION);
case JVMTI_ERROR_NAMES_DONT_MATCH:
return JDWP_ERROR(NAMES_DONT_MATCH);
case AGENT_ERROR_NULL_POINTER:
case JVMTI_ERROR_NULL_POINTER:
return JDWP_ERROR(NULL_POINTER);
case JVMTI_ERROR_ABSENT_INFORMATION:
return JDWP_ERROR(ABSENT_INFORMATION);
case AGENT_ERROR_INVALID_EVENT_TYPE:
case JVMTI_ERROR_INVALID_EVENT_TYPE:
return JDWP_ERROR(INVALID_EVENT_TYPE);
case AGENT_ERROR_ILLEGAL_ARGUMENT:
case JVMTI_ERROR_ILLEGAL_ARGUMENT:
return JDWP_ERROR(ILLEGAL_ARGUMENT);
case JVMTI_ERROR_OUT_OF_MEMORY:
case AGENT_ERROR_OUT_OF_MEMORY:
return JDWP_ERROR(OUT_OF_MEMORY);
case JVMTI_ERROR_ACCESS_DENIED:
return JDWP_ERROR(ACCESS_DENIED);
case JVMTI_ERROR_WRONG_PHASE:
case AGENT_ERROR_VM_DEAD:
case AGENT_ERROR_NO_JNI_ENV:
return JDWP_ERROR(VM_DEAD);
case AGENT_ERROR_JNI_EXCEPTION:
case JVMTI_ERROR_UNATTACHED_THREAD:
return JDWP_ERROR(UNATTACHED_THREAD);
case JVMTI_ERROR_NOT_AVAILABLE:
case JVMTI_ERROR_MUST_POSSESS_CAPABILITY:
return JDWP_ERROR(NOT_IMPLEMENTED);
case JVMTI_ERROR_UNSUPPORTED_REDEFINITION_HIERARCHY_CHANGED:
return JDWP_ERROR(HIERARCHY_CHANGE_NOT_IMPLEMENTED);
case JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_DELETED:
return JDWP_ERROR(DELETE_METHOD_NOT_IMPLEMENTED);
case JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_ADDED:
return JDWP_ERROR(ADD_METHOD_NOT_IMPLEMENTED);
case JVMTI_ERROR_UNSUPPORTED_REDEFINITION_SCHEMA_CHANGED:
return JDWP_ERROR(SCHEMA_CHANGE_NOT_IMPLEMENTED);
case JVMTI_ERROR_UNSUPPORTED_REDEFINITION_CLASS_MODIFIERS_CHANGED:
return JDWP_ERROR(CLASS_MODIFIERS_CHANGE_NOT_IMPLEMENTED);
case JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_MODIFIERS_CHANGED:
return JDWP_ERROR(METHOD_MODIFIERS_CHANGE_NOT_IMPLEMENTED);
case AGENT_ERROR_NOT_CURRENT_FRAME:
return JDWP_ERROR(NOT_CURRENT_FRAME);
case AGENT_ERROR_INVALID_TAG:
return JDWP_ERROR(INVALID_TAG);
case AGENT_ERROR_ALREADY_INVOKING:
return JDWP_ERROR(ALREADY_INVOKING);
case AGENT_ERROR_INVALID_INDEX:
return JDWP_ERROR(INVALID_INDEX);
case AGENT_ERROR_INVALID_LENGTH:
return JDWP_ERROR(INVALID_LENGTH);
case AGENT_ERROR_INVALID_STRING:
return JDWP_ERROR(INVALID_STRING);
case AGENT_ERROR_INVALID_CLASS_LOADER:
return JDWP_ERROR(INVALID_CLASS_LOADER);
case AGENT_ERROR_INVALID_ARRAY:
return JDWP_ERROR(INVALID_ARRAY);
case AGENT_ERROR_TRANSPORT_LOAD:
return JDWP_ERROR(TRANSPORT_LOAD);
case AGENT_ERROR_TRANSPORT_INIT:
return JDWP_ERROR(TRANSPORT_INIT);
case AGENT_ERROR_NATIVE_METHOD:
return JDWP_ERROR(NATIVE_METHOD);
case AGENT_ERROR_INVALID_COUNT:
return JDWP_ERROR(INVALID_COUNT);
case AGENT_ERROR_INVALID_FRAMEID:
return JDWP_ERROR(INVALID_FRAMEID);
case JVMTI_ERROR_INTERNAL:
case JVMTI_ERROR_INVALID_ENVIRONMENT:
case AGENT_ERROR_INTERNAL:
case AGENT_ERROR_JVMTI_INTERNAL:
case AGENT_ERROR_JDWP_INTERNAL:
return JDWP_ERROR(INTERNAL);
default:
break;
}
return JDWP_ERROR(INTERNAL);
}
jint
map2jdwpSuspendStatus(jint state)
{
jint status = 0;
if ( ( state & JVMTI_THREAD_STATE_SUSPENDED ) != 0 ) {
status = JDWP_SUSPEND_STATUS(SUSPENDED);
}
return status;
}
jdwpThreadStatus
map2jdwpThreadStatus(jint state)
{
jdwpThreadStatus status;
status = (jdwpThreadStatus)(-1);
if ( ! ( state & JVMTI_THREAD_STATE_ALIVE ) ) {
if ( state & JVMTI_THREAD_STATE_TERMINATED ) {
status = JDWP_THREAD_STATUS(ZOMBIE);
} else {
/* FIXUP? New JDWP #define for not started? */
status = (jdwpThreadStatus)(-1);
}
} else {
if ( state & JVMTI_THREAD_STATE_SLEEPING ) {
status = JDWP_THREAD_STATUS(SLEEPING);
} else if ( state & JVMTI_THREAD_STATE_BLOCKED_ON_MONITOR_ENTER ) {
status = JDWP_THREAD_STATUS(MONITOR);
} else if ( state & JVMTI_THREAD_STATE_WAITING ) {
status = JDWP_THREAD_STATUS(WAIT);
} else if ( state & JVMTI_THREAD_STATE_RUNNABLE ) {
status = JDWP_THREAD_STATUS(RUNNING);
}
}
return status;
}
jint
map2jdwpClassStatus(jint classStatus)
{
jint status = 0;
if ( ( classStatus & JVMTI_CLASS_STATUS_VERIFIED ) != 0 ) {
status |= JDWP_CLASS_STATUS(VERIFIED);
}
if ( ( classStatus & JVMTI_CLASS_STATUS_PREPARED ) != 0 ) {
status |= JDWP_CLASS_STATUS(PREPARED);
}
if ( ( classStatus & JVMTI_CLASS_STATUS_INITIALIZED ) != 0 ) {
status |= JDWP_CLASS_STATUS(INITIALIZED);
}
if ( ( classStatus & JVMTI_CLASS_STATUS_ERROR ) != 0 ) {
status |= JDWP_CLASS_STATUS(ERROR);
}
return status;
}
void
log_debugee_location(const char *func,
jthread thread, jmethodID method, jlocation location)
{
int logging_locations = LOG_TEST(JDWP_LOG_LOC);
if ( logging_locations ) {
char *method_name;
char *class_sig;
jvmtiError error;
jvmtiThreadInfo info;
jint state;
/* Get thread information */
info.name = NULL;
error = FUNC_PTR(gdata->jvmti,GetThreadInfo)
(gdata->jvmti, thread, &info);
if ( error != JVMTI_ERROR_NONE) {
info.name = NULL;
}
error = FUNC_PTR(gdata->jvmti,GetThreadState)
(gdata->jvmti, thread, &state);
if ( error != JVMTI_ERROR_NONE) {
state = 0;
}
/* Get method if necessary */
if ( method==NULL ) {
error = FUNC_PTR(gdata->jvmti,GetFrameLocation)
(gdata->jvmti, thread, 0, &method, &location);
if ( error != JVMTI_ERROR_NONE ) {
method = NULL;
location = 0;
}
}
/* Get method name */
method_name = NULL;
if ( method != NULL ) {
error = methodSignature(method, &method_name, NULL, NULL);
if ( error != JVMTI_ERROR_NONE ) {
method_name = NULL;
}
}
/* Get class signature */
class_sig = NULL;
if ( method != NULL ) {
jclass clazz;
error = methodClass(method, &clazz);
if ( error == JVMTI_ERROR_NONE ) {
error = classSignature(clazz, &class_sig, NULL);
if ( error != JVMTI_ERROR_NONE ) {
class_sig = NULL;
}
}
}
/* Issue log message */
LOG_LOC(("%s: debugee: thread=%p(%s:0x%x),method=%p(%s@%d;%s)",
func,
thread, info.name==NULL ? "?" : info.name, state,
method, method_name==NULL ? "?" : method_name,
(int)location, class_sig==NULL ? "?" : class_sig));
/* Free memory */
if ( class_sig != NULL ) {
jvmtiDeallocate(class_sig);
}
if ( method_name != NULL ) {
jvmtiDeallocate(method_name);
}
if ( info.name != NULL ) {
jvmtiDeallocate(info.name);
}
}
}
/* ********************************************************************* */
/* JDK 6.0: Use of new Heap Iteration functions */
/* ********************************************************************* */
/* ********************************************************************* */
/* Instances */
/* Structure to hold class instances heap iteration data (arg user_data) */
typedef struct ClassInstancesData {
jint instCount;
jint maxInstances;
jlong objTag;
jvmtiError error;
} ClassInstancesData;
/* Callback for instance object tagging (heap_reference_callback). */
static jint JNICALL
cbObjectTagInstance(jvmtiHeapReferenceKind reference_kind,
const jvmtiHeapReferenceInfo* reference_info, jlong class_tag,
jlong referrer_class_tag, jlong size,
jlong* tag_ptr, jlong* referrer_tag_ptr, jint length, void* user_data)
{
ClassInstancesData *data;
/* Check data structure */
data = (ClassInstancesData*)user_data;
if (data == NULL) {
data->error = AGENT_ERROR_ILLEGAL_ARGUMENT;
return JVMTI_VISIT_ABORT;
}
/* If we have tagged enough objects, just abort */
if ( data->maxInstances != 0 && data->instCount >= data->maxInstances ) {
return JVMTI_VISIT_ABORT;
}
/* If tagged already, just continue */
if ( (*tag_ptr) != (jlong)0 ) {
return JVMTI_VISIT_OBJECTS;
}
/* Tag the object so we don't count it again, and so we can retrieve it */
(*tag_ptr) = data->objTag;
data->instCount++;
return JVMTI_VISIT_OBJECTS;
}
/* Get instances for one class */
jvmtiError
classInstances(jclass klass, ObjectBatch *instances, int maxInstances)
{
ClassInstancesData data;
jvmtiHeapCallbacks heap_callbacks;
jvmtiError error;
jvmtiEnv *jvmti;
/* Check interface assumptions */
if (klass == NULL) {
return AGENT_ERROR_INVALID_OBJECT;
}
if ( maxInstances < 0 || instances == NULL) {
return AGENT_ERROR_ILLEGAL_ARGUMENT;
}
/* Initialize return information */
instances->count = 0;
instances->objects = NULL;
/* Get jvmti environment to use */
jvmti = getSpecialJvmti();
if ( jvmti == NULL ) {
return AGENT_ERROR_INTERNAL;
}
/* Setup data to passed around the callbacks */
data.instCount = 0;
data.maxInstances = maxInstances;
data.objTag = (jlong)1;
data.error = JVMTI_ERROR_NONE;
/* Clear out callbacks structure */
(void)memset(&heap_callbacks,0,sizeof(heap_callbacks));
/* Set the callbacks we want */
heap_callbacks.heap_reference_callback = &cbObjectTagInstance;
/* Follow references, no initiating object, just this class, all objects */
error = JVMTI_FUNC_PTR(jvmti,FollowReferences)
(jvmti, 0, klass, NULL, &heap_callbacks, &data);
if ( error == JVMTI_ERROR_NONE ) {
error = data.error;
}
/* Get all the instances now that they are tagged */
if ( error == JVMTI_ERROR_NONE ) {
error = JVMTI_FUNC_PTR(jvmti,GetObjectsWithTags)
(jvmti, 1, &(data.objTag), &(instances->count),
&(instances->objects), NULL);
/* Verify we got the count we expected */
if ( data.instCount != instances->count ) {
error = AGENT_ERROR_INTERNAL;
}
}
/* Dispose of any special jvmti environment */
(void)JVMTI_FUNC_PTR(jvmti,DisposeEnvironment)(jvmti);
return error;
}
/* ********************************************************************* */
/* Instance counts. */
/* Macros to convert a class or instance tag to an index and back again */
#define INDEX2CLASSTAG(i) ((jlong)((i)+1))
#define CLASSTAG2INDEX(t) (((int)(t))-1)
#define JLONG_ABS(x) (((x)<(jlong)0)?-(x):(x))
/* Structure to hold class count heap traversal data (arg user_data) */
typedef struct ClassCountData {
int classCount;
jlong *counts;
jlong negObjTag;
jvmtiError error;
} ClassCountData;
/* Two different cbObjectCounter's, one for FollowReferences, one for
* IterateThroughHeap. Pick a card, any card.
*/
/* Callback for object count heap traversal (heap_reference_callback) */
static jint JNICALL
cbObjectCounterFromRef(jvmtiHeapReferenceKind reference_kind,
const jvmtiHeapReferenceInfo* reference_info, jlong class_tag,
jlong referrer_class_tag, jlong size,
jlong* tag_ptr, jlong* referrer_tag_ptr, jint length, void* user_data)
{
ClassCountData *data;
int index;
jlong jindex;
jlong tag;
/* Check data structure */
data = (ClassCountData*)user_data;
if (data == NULL) {
data->error = AGENT_ERROR_ILLEGAL_ARGUMENT;
return JVMTI_VISIT_ABORT;
}
/* Classes with no class_tag should have been filtered out. */
if ( class_tag == (jlong)0 ) {
data->error = AGENT_ERROR_INTERNAL;
return JVMTI_VISIT_ABORT;
}
/* Class tag not one we really want (jclass not in supplied list) */
if ( class_tag == data->negObjTag ) {
return JVMTI_VISIT_OBJECTS;
}
/* If object tag is negative, just continue, we counted it */
tag = (*tag_ptr);
if ( tag < (jlong)0 ) {
return JVMTI_VISIT_OBJECTS;
}
/* Tag the object with a negative value just so we don't count it again */
if ( tag == (jlong)0 ) {
/* This object had no tag value, so we give it the negObjTag value */
(*tag_ptr) = data->negObjTag;
} else {
/* If this object had a positive tag value, it must be one of the
* jclass objects we tagged. We need to preserve the value of
* this tag for later objects that might have this as a class
* tag, so we just make the existing tag value negative.
*/
(*tag_ptr) = -tag;
}
/* Absolute value of class tag is an index into the counts[] array */
jindex = JLONG_ABS(class_tag);
index = CLASSTAG2INDEX(jindex);
if (index < 0 || index >= data->classCount) {
data->error = AGENT_ERROR_ILLEGAL_ARGUMENT;
return JVMTI_VISIT_ABORT;
}
/* Bump instance count on this class */
data->counts[index]++;
return JVMTI_VISIT_OBJECTS;
}
/* Callback for instance count heap traversal (heap_iteration_callback) */
static jint JNICALL
cbObjectCounter(jlong class_tag, jlong size, jlong* tag_ptr, jint length,
void* user_data)
{
ClassCountData *data;
int index;
/* Check data structure */
data = (ClassCountData*)user_data;
if (data == NULL) {
data->error = AGENT_ERROR_ILLEGAL_ARGUMENT;
return JVMTI_VISIT_ABORT;
}
/* Classes with no tag should be filtered out. */
if ( class_tag == (jlong)0 ) {
data->error = AGENT_ERROR_INTERNAL;
return JVMTI_VISIT_ABORT;
}
/* Class tag is actually an index into data arrays */
index = CLASSTAG2INDEX(class_tag);
if (index < 0 || index >= data->classCount) {
data->error = AGENT_ERROR_ILLEGAL_ARGUMENT;
return JVMTI_VISIT_ABORT;
}
/* Bump instance count on this class */
data->counts[index]++;
return JVMTI_VISIT_OBJECTS;
}
/* Get instance counts for a set of classes */
jvmtiError
classInstanceCounts(jint classCount, jclass *classes, jlong *counts)
{
jvmtiHeapCallbacks heap_callbacks;
ClassCountData data;
jvmtiError error;
jvmtiEnv *jvmti;
int i;
/* Check interface assumptions */
if ( classes == NULL || classCount <= 0 || counts == NULL ) {
return AGENT_ERROR_ILLEGAL_ARGUMENT;
}
/* Initialize return information */
for ( i = 0 ; i < classCount ; i++ ) {
counts[i] = (jlong)0;
}
/* Get jvmti environment to use */
jvmti = getSpecialJvmti();
if ( jvmti == NULL ) {
return AGENT_ERROR_INTERNAL;
}
/* Setup class data structure */
data.error = JVMTI_ERROR_NONE;
data.classCount = classCount;
data.counts = counts;
error = JVMTI_ERROR_NONE;
/* Set tags on classes, use index in classes[] as the tag value. */
error = JVMTI_ERROR_NONE;
for ( i = 0 ; i < classCount ; i++ ) {
if (classes[i] != NULL) {
jlong tag;
tag = INDEX2CLASSTAG(i);
error = JVMTI_FUNC_PTR(jvmti,SetTag) (jvmti, classes[i], tag);
if ( error != JVMTI_ERROR_NONE ) {
break;
}
}
}
/* Traverse heap, two ways to do this for instance counts. */
if ( error == JVMTI_ERROR_NONE ) {
/* Clear out callbacks structure */
(void)memset(&heap_callbacks,0,sizeof(heap_callbacks));
/* Check debug flags to see how to do this. */
if ( (gdata->debugflags & USE_ITERATE_THROUGH_HEAP) == 0 ) {
/* Using FollowReferences only gives us live objects, but we
* need to tag the objects to avoid counting them twice since
* the callback is per reference.
* The jclass objects have been tagged with their index in the
* supplied list, and that tag may flip to negative if it
* is also an object of interest.
* All other objects being counted that weren't in the
* supplied classes list will have a negative classCount
* tag value. So all objects counted will have negative tags.
* If the absolute tag value is an index in the supplied
* list, then it's one of the supplied classes.
*/
data.negObjTag = -INDEX2CLASSTAG(classCount);
/* Setup callbacks, only using object reference callback */
heap_callbacks.heap_reference_callback = &cbObjectCounterFromRef;
/* Follow references, no initiating object, tagged classes only */
error = JVMTI_FUNC_PTR(jvmti,FollowReferences)
(jvmti, JVMTI_HEAP_FILTER_CLASS_UNTAGGED,
NULL, NULL, &heap_callbacks, &data);
} else {
/* Using IterateThroughHeap means that we will visit each object
* once, so no special tag tricks here. Just simple counting.
* However in this case the object might not be live, so we do
* a GC beforehand to make sure we minimize this.
*/
/* FIXUP: Need some kind of trigger here to avoid excessive GC's? */
error = JVMTI_FUNC_PTR(jvmti,ForceGarbageCollection)(jvmti);
if ( error != JVMTI_ERROR_NONE ) {
/* Setup callbacks, just need object callback */
heap_callbacks.heap_iteration_callback = &cbObjectCounter;
/* Iterate through entire heap, tagged classes only */
error = JVMTI_FUNC_PTR(jvmti,IterateThroughHeap)
(jvmti, JVMTI_HEAP_FILTER_CLASS_UNTAGGED,
NULL, &heap_callbacks, &data);
}
}
/* Use data error if needed */
if ( error == JVMTI_ERROR_NONE ) {
error = data.error;
}
}
/* Dispose of any special jvmti environment */
(void)JVMTI_FUNC_PTR(jvmti,DisposeEnvironment)(jvmti);
return error;
}
/* ********************************************************************* */
/* Referrers */
/* Structure to hold object referrer heap traversal data (arg user_data) */
typedef struct ReferrerData {
int refCount;
int maxObjects;
jlong refTag;
jlong objTag;
jboolean selfRef;
jvmtiError error;
} ReferrerData;
/* Callback for referrers object tagging (heap_reference_callback). */
static jint JNICALL