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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements. See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache license, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License. You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the license for the specific language governing permissions and
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package org.apache.logging.log4j.util;

import java.lang.reflect.Method;
import java.util.ArrayDeque;
import java.util.Deque;
import java.util.function.Predicate;

/**
 * Consider this class private. Provides various methods to determine the caller class. 

Background

*

* This method, available only in the Oracle/Sun/OpenJDK implementations of the Java Virtual Machine, is a much more * efficient mechanism for determining the {@link Class} of the caller of a particular method. When it is not available, * a {@link SecurityManager} is the second-best option. When this is also not possible, the {@code StackTraceElement[]} * returned by {@link Throwable#getStackTrace()} must be used, and its {@code String} class name converted to a * {@code Class} using the slow {@link Class#forName} (which can add an extra microsecond or more for each invocation * depending on the runtime ClassLoader hierarchy). *

*

* During Java 8 development, the {@code sun.reflect.Reflection.getCallerClass(int)} was removed from OpenJDK, and this * change was back-ported to Java 7 in version 1.7.0_25 which changed the behavior of the call and caused it to be off * by one stack frame. This turned out to be beneficial for the survival of this API as the change broke hundreds of * libraries and frameworks relying on the API which brought much more attention to the intended API removal. *

*

* After much community backlash, the JDK team agreed to restore {@code getCallerClass(int)} and keep its existing * behavior for the rest of Java 7. However, the method is deprecated in Java 8, and current Java 9 development has not * addressed this API. Therefore, the functionality of this class cannot be relied upon for all future versions of Java. * It does, however, work just fine in Sun JDK 1.6, OpenJDK 1.6, Oracle/OpenJDK 1.7, and Oracle/OpenJDK 1.8. Other Java * environments may fall back to using {@link Throwable#getStackTrace()} which is significantly slower due to * examination of every virtual frame of execution. *

*/ public final class StackLocator { /** TODO Consider removing now that we require Java 8. */ static final int JDK_7U25_OFFSET; private static final Method GET_CALLER_CLASS_METHOD; private static final StackLocator INSTANCE; /** TODO: Use Object.class. */ private static final Class DEFAULT_CALLER_CLASS = null; static { Method getCallerClassMethod; int java7u25CompensationOffset = 0; try { final Class sunReflectionClass = LoaderUtil.loadClass("sun.reflect.Reflection"); getCallerClassMethod = sunReflectionClass.getDeclaredMethod("getCallerClass", int.class); Object o = getCallerClassMethod.invoke(null, 0); getCallerClassMethod.invoke(null, 0); if (o == null || o != sunReflectionClass) { getCallerClassMethod = null; java7u25CompensationOffset = -1; } else { o = getCallerClassMethod.invoke(null, 1); if (o == sunReflectionClass) { System.out.println("WARNING: Unexpected result from sun.reflect.Reflection.getCallerClass(int), adjusting offset for future calls."); java7u25CompensationOffset = 1; } } } catch (final Exception | LinkageError e) { System.out.println("WARNING: sun.reflect.Reflection.getCallerClass is not supported. This will impact performance."); getCallerClassMethod = null; java7u25CompensationOffset = -1; } GET_CALLER_CLASS_METHOD = getCallerClassMethod; JDK_7U25_OFFSET = java7u25CompensationOffset; INSTANCE = new StackLocator(); } /** * Gets the singleton instance. * * @return the singleton instance. */ public static StackLocator getInstance() { return INSTANCE; } private StackLocator() { } // TODO: return Object.class instead of null (though it will have a null ClassLoader) // (MS) I believe this would work without any modifications elsewhere, but I could be wrong @PerformanceSensitive public Class getCallerClass(final Class sentinelClass, final Predicate> callerPredicate) { if (sentinelClass == null) { throw new IllegalArgumentException("sentinelClass cannot be null"); } if (callerPredicate == null) { throw new IllegalArgumentException("callerPredicate cannot be null"); } boolean foundSentinel = false; Class clazz; for (int i = 2; null != (clazz = getCallerClass(i)); i++) { if (sentinelClass.equals(clazz)) { foundSentinel = true; } else if (foundSentinel && callerPredicate.test(clazz)) { return clazz; } } return DEFAULT_CALLER_CLASS; } /** * Gets the Class of the method that called this method at the location up the call stack by the given stack * frame depth. *

* This method returns {@code null} if: *

*
    *
  • {@code sun.reflect.Reflection.getCallerClass(int)} is not present.
  • *
  • An exception is caught calling {@code sun.reflect.Reflection.getCallerClass(int)}.
  • *
* * @param depth The stack frame count to walk. * @return A class or null. * @throws IndexOutOfBoundsException if depth is negative. */ // migrated from ReflectiveCallerClassUtility @PerformanceSensitive public Class getCallerClass(final int depth) { if (depth < 0) { throw new IndexOutOfBoundsException(Integer.toString(depth)); } if (GET_CALLER_CLASS_METHOD == null) { return DEFAULT_CALLER_CLASS; } // note that we need to add 1 to the depth value to compensate for this method, but not for the Method.invoke // since Reflection.getCallerClass ignores the call to Method.invoke() try { return (Class) GET_CALLER_CLASS_METHOD.invoke(null, depth + 1 + JDK_7U25_OFFSET); } catch (final Exception e) { // theoretically this could happen if the caller class were native code // TODO: return Object.class return DEFAULT_CALLER_CLASS; } } // migrated from Log4jLoggerFactory @PerformanceSensitive public Class getCallerClass(final String fqcn, final String pkg) { boolean next = false; Class clazz; for (int i = 2; null != (clazz = getCallerClass(i)); i++) { if (fqcn.equals(clazz.getName())) { next = true; continue; } if (next && clazz.getName().startsWith(pkg)) { return clazz; } } // TODO: return Object.class return DEFAULT_CALLER_CLASS; } // added for use in LoggerAdapter implementations mainly @PerformanceSensitive public Class getCallerClass(final Class anchor) { boolean next = false; Class clazz; for (int i = 2; null != (clazz = getCallerClass(i)); i++) { if (anchor.equals(clazz)) { next = true; continue; } if (next) { return clazz; } } return Object.class; } // migrated from ThrowableProxy @PerformanceSensitive public Deque> getCurrentStackTrace() { // benchmarks show that using the SecurityManager is much faster than looping through getCallerClass(int) if (PrivateSecurityManagerStackTraceUtil.isEnabled()) { return PrivateSecurityManagerStackTraceUtil.getCurrentStackTrace(); } // slower version using getCallerClass where we cannot use a SecurityManager final Deque> classes = new ArrayDeque<>(); Class clazz; for (int i = 1; null != (clazz = getCallerClass(i)); i++) { classes.push(clazz); } return classes; } public StackTraceElement calcLocation(final String fqcnOfLogger) { if (fqcnOfLogger == null) { return null; } // LOG4J2-1029 new Throwable().getStackTrace is faster than Thread.currentThread().getStackTrace(). final StackTraceElement[] stackTrace = new Throwable().getStackTrace(); boolean found = false; for (int i = 0; i < stackTrace.length; i++) { final String className = stackTrace[i].getClassName(); if (fqcnOfLogger.equals(className)) { found = true; continue; } if (found && !fqcnOfLogger.equals(className)) { return stackTrace[i]; } } return null; } public StackTraceElement getStackTraceElement(final int depth) { // (MS) I tested the difference between using Throwable.getStackTrace() and Thread.getStackTrace(), and // the version using Throwable was surprisingly faster! at least on Java 1.8. See ReflectionBenchmark. int i = 0; for (final StackTraceElement element : new Throwable().getStackTrace()) { if (isValid(element)) { if (i == depth) { return element; } ++i; } } throw new IndexOutOfBoundsException(Integer.toString(depth)); } private boolean isValid(final StackTraceElement element) { // ignore native methods (oftentimes are repeated frames) if (element.isNativeMethod()) { return false; } final String cn = element.getClassName(); // ignore OpenJDK internal classes involved with reflective invocation if (cn.startsWith("sun.reflect.")) { return false; } final String mn = element.getMethodName(); // ignore use of reflection including: // Method.invoke // InvocationHandler.invoke // Constructor.newInstance if (cn.startsWith("java.lang.reflect.") && (mn.equals("invoke") || mn.equals("newInstance"))) { return false; } // ignore use of Java 1.9+ reflection classes if (cn.startsWith("jdk.internal.reflect.")) { return false; } // ignore Class.newInstance if (cn.equals("java.lang.Class") && mn.equals("newInstance")) { return false; } // ignore use of Java 1.7+ MethodHandle.invokeFoo() methods if (cn.equals("java.lang.invoke.MethodHandle") && mn.startsWith("invoke")) { return false; } // any others? return true; } }




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