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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
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* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
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*
* 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).
*
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* 2 along with this work; if not, write to the Free Software Foundation,
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*
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package jdk.jfr.internal;
import java.lang.reflect.Modifier;
import jdk.jfr.internal.handlers.EventHandler;
import jdk.jfr.internal.instrument.JDKEvents;
All upcalls from the JVM should go through this class.
/**
* All upcalls from the JVM should go through this class.
*
*/
// Called by native
final class JVMUpcalls {
Called by the JVM when a retransform happens on a tagged class
Params: - traceId –
Id of the class
- dummy –
(not used but needed since invoke infrastructure in native
uses same signature bytesForEagerInstrumentation)
- clazz –
class being retransformed
- oldBytes –
byte code
Throws: Returns: byte code to use
/**
* Called by the JVM when a retransform happens on a tagged class
*
* @param traceId
* Id of the class
* @param dummy
* (not used but needed since invoke infrastructure in native
* uses same signature bytesForEagerInstrumentation)
* @param clazz
* class being retransformed
* @param oldBytes
* byte code
* @return byte code to use
* @throws Throwable
*/
static byte[] onRetransform(long traceId, boolean dummy, Class<?> clazz, byte[] oldBytes) throws Throwable {
try {
if (jdk.internal.event.Event.class.isAssignableFrom(clazz) && !Modifier.isAbstract(clazz.getModifiers())) {
EventHandler handler = Utils.getHandler(clazz.asSubclass(jdk.internal.event.Event.class));
if (handler == null) {
Logger.log(LogTag.JFR_SYSTEM, LogLevel.INFO, "No event handler found for " + clazz.getName() + ". Ignoring instrumentation request.");
// Probably triggered by some other agent
return oldBytes;
}
Logger.log(LogTag.JFR_SYSTEM, LogLevel.INFO, "Adding instrumentation to event class " + clazz.getName() + " using retransform");
EventInstrumentation ei = new EventInstrumentation(clazz.getSuperclass(), oldBytes, traceId);
byte[] bytes = ei.buildInstrumented();
ASMToolkit.logASM(clazz.getName(), bytes);
return bytes;
}
return JDKEvents.retransformCallback(clazz, oldBytes);
} catch (Throwable t) {
Logger.log(LogTag.JFR_SYSTEM, LogLevel.WARN, "Unexpected error when adding instrumentation to event class " + clazz.getName());
}
return oldBytes;
}
Called by the JVM when requested to do an "eager" instrumentation. Would
normally happen when JVMTI retransform capabilities are not available.
Params: - traceId –
Id of the class
- forceInstrumentation –
add instrumentation regardless if event is enabled or not.
- superClass –
the super class of the class being processed
- oldBytes –
byte code
Throws: Returns: byte code to use
/**
* Called by the JVM when requested to do an "eager" instrumentation. Would
* normally happen when JVMTI retransform capabilities are not available.
*
* @param traceId
* Id of the class
* @param forceInstrumentation
* add instrumentation regardless if event is enabled or not.
* @param superClass
* the super class of the class being processed
* @param oldBytes
* byte code
* @return byte code to use
* @throws Throwable
*/
static byte[] bytesForEagerInstrumentation(long traceId, boolean forceInstrumentation, Class<?> superClass, byte[] oldBytes) throws Throwable {
if (JVMSupport.isNotAvailable()) {
return oldBytes;
}
String eventName = "<Unknown>";
try {
EventInstrumentation ei = new EventInstrumentation(superClass, oldBytes, traceId);
eventName = ei.getEventName();
if (!forceInstrumentation) {
// Assume we are recording
MetadataRepository mr = MetadataRepository.getInstance();
// No need to generate bytecode if:
// 1) Event class is disabled, and there is not an external configuration that overrides.
// 2) Event class has @Registered(false)
if (!mr.isEnabled(ei.getEventName()) && !ei.isEnabled() || !ei.isRegistered()) {
Logger.log(LogTag.JFR_SYSTEM, LogLevel.INFO, "Skipping instrumentation for event type " + eventName + " since event was disabled on class load");
return oldBytes;
}
}
// Corner case when we are forced to generate bytecode. We can't reference the event
// handler in #isEnabled() before event class has been registered, so we add a
// guard against a null reference.
ei.setGuardHandler(true);
Logger.log(LogTag.JFR_SYSTEM, LogLevel.INFO, "Adding " + (forceInstrumentation ? "forced " : "") + "instrumentation for event type " + eventName + " during initial class load");
EventHandlerCreator eh = new EventHandlerCreator(traceId, ei.getSettingInfos(), ei.getFieldInfos());
// Handler class must be loaded before instrumented event class can
// be used
eh.makeEventHandlerClass();
byte[] bytes = ei.buildInstrumented();
ASMToolkit.logASM(ei.getClassName() + "(" + traceId + ")", bytes);
return bytes;
} catch (Throwable t) {
Logger.log(LogTag.JFR_SYSTEM, LogLevel.WARN, "Unexpected error when adding instrumentation for event type " + eventName);
return oldBytes;
}
}
Called by the JVM to create the recorder thread.
Params: - systemThreadGroup –
the system thread group
- contextClassLoader –
the context class loader.
Returns: a new thread
/**
* Called by the JVM to create the recorder thread.
*
* @param systemThreadGroup
* the system thread group
*
* @param contextClassLoader
* the context class loader.
*
* @return a new thread
*/
static Thread createRecorderThread(ThreadGroup systemThreadGroup, ClassLoader contextClassLoader) {
return SecuritySupport.createRecorderThread(systemThreadGroup, contextClassLoader);
}
}