/* * Copyright (c) 2001, 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. */ package sun.reflect; import java.lang.reflect.*; import java.util.HashMap; import java.util.Map; import jdk.internal.HotSpotIntrinsicCandidate; /** Common utility routines used by both java.lang and java.lang.reflect */ public class Reflection { /** Used to filter out fields and methods from certain classes from public view, where they are sensitive or they may contain VM-internal objects. These Maps are updated very rarely. Rather than synchronize on each access, we use copy-on-write */ private static volatile Map,String[]> fieldFilterMap; private static volatile Map,String[]> methodFilterMap; static { Map,String[]> map = new HashMap,String[]>(); map.put(Reflection.class, new String[] {"fieldFilterMap", "methodFilterMap"}); map.put(System.class, new String[] {"security"}); map.put(Class.class, new String[] {"classLoader"}); fieldFilterMap = map; methodFilterMap = new HashMap<>(); } /** Returns the class of the caller of the method calling this method, ignoring frames associated with java.lang.reflect.Method.invoke() and its implementation. */ @CallerSensitive @HotSpotIntrinsicCandidate public static native Class getCallerClass(); /** * @deprecated This method will be removed in JDK 9. * This method is a private JDK API and retained temporarily for * existing code to run until a replacement API is defined. */ @Deprecated public static native Class getCallerClass(int depth); /** Retrieves the access flags written to the class file. For inner classes these flags may differ from those returned by Class.getModifiers(), which searches the InnerClasses attribute to find the source-level access flags. This is used instead of Class.getModifiers() for run-time access checks due to compatibility reasons; see 4471811. Only the values of the low 13 bits (i.e., a mask of 0x1FFF) are guaranteed to be valid. */ @HotSpotIntrinsicCandidate public static native int getClassAccessFlags(Class c); /** A quick "fast-path" check to try to avoid getCallerClass() calls. */ public static boolean quickCheckMemberAccess(Class memberClass, int modifiers) { return Modifier.isPublic(getClassAccessFlags(memberClass) & modifiers); } public static void ensureMemberAccess(Class currentClass, Class memberClass, Object target, int modifiers) throws IllegalAccessException { if (currentClass == null || memberClass == null) { throw new InternalError(); } if (!verifyMemberAccess(currentClass, memberClass, target, modifiers)) { throw new IllegalAccessException("Class " + currentClass.getName() + " can not access a member of class " + memberClass.getName() + " with modifiers \"" + Modifier.toString(modifiers) + "\""); } } public static boolean verifyMemberAccess(Class currentClass, // Declaring class of field // or method Class memberClass, // May be NULL in case of statics Object target, int modifiers) { // Verify that currentClass can access a field, method, or // constructor of memberClass, where that member's access bits are // "modifiers". boolean gotIsSameClassPackage = false; boolean isSameClassPackage = false; if (currentClass == memberClass) { // Always succeeds return true; } if (!Modifier.isPublic(getClassAccessFlags(memberClass))) { isSameClassPackage = isSameClassPackage(currentClass, memberClass); gotIsSameClassPackage = true; if (!isSameClassPackage) { return false; } } // At this point we know that currentClass can access memberClass. if (Modifier.isPublic(modifiers)) { return true; } boolean successSoFar = false; if (Modifier.isProtected(modifiers)) { // See if currentClass is a subclass of memberClass if (isSubclassOf(currentClass, memberClass)) { successSoFar = true; } } if (!successSoFar && !Modifier.isPrivate(modifiers)) { if (!gotIsSameClassPackage) { isSameClassPackage = isSameClassPackage(currentClass, memberClass); gotIsSameClassPackage = true; } if (isSameClassPackage) { successSoFar = true; } } if (!successSoFar) { return false; } if (Modifier.isProtected(modifiers)) { // Additional test for protected members: JLS 6.6.2 Class targetClass = (target == null ? memberClass : target.getClass()); if (targetClass != currentClass) { if (!gotIsSameClassPackage) { isSameClassPackage = isSameClassPackage(currentClass, memberClass); gotIsSameClassPackage = true; } if (!isSameClassPackage) { if (!isSubclassOf(targetClass, currentClass)) { return false; } } } } return true; } private static boolean isSameClassPackage(Class c1, Class c2) { return isSameClassPackage(c1.getClassLoader(), c1.getName(), c2.getClassLoader(), c2.getName()); } /** Returns true if two classes are in the same package; classloader and classname information is enough to determine a class's package */ private static boolean isSameClassPackage(ClassLoader loader1, String name1, ClassLoader loader2, String name2) { if (loader1 != loader2) { return false; } else { int lastDot1 = name1.lastIndexOf('.'); int lastDot2 = name2.lastIndexOf('.'); if ((lastDot1 == -1) || (lastDot2 == -1)) { // One of the two doesn't have a package. Only return true // if the other one also doesn't have a package. return (lastDot1 == lastDot2); } else { int idx1 = 0; int idx2 = 0; // Skip over '['s if (name1.charAt(idx1) == '[') { do { idx1++; } while (name1.charAt(idx1) == '['); if (name1.charAt(idx1) != 'L') { // Something is terribly wrong. Shouldn't be here. throw new InternalError("Illegal class name " + name1); } } if (name2.charAt(idx2) == '[') { do { idx2++; } while (name2.charAt(idx2) == '['); if (name2.charAt(idx2) != 'L') { // Something is terribly wrong. Shouldn't be here. throw new InternalError("Illegal class name " + name2); } } // Check that package part is identical int length1 = lastDot1 - idx1; int length2 = lastDot2 - idx2; if (length1 != length2) { return false; } return name1.regionMatches(false, idx1, name2, idx2, length1); } } } static boolean isSubclassOf(Class queryClass, Class ofClass) { while (queryClass != null) { if (queryClass == ofClass) { return true; } queryClass = queryClass.getSuperclass(); } return false; } // fieldNames must contain only interned Strings public static synchronized void registerFieldsToFilter(Class containingClass, String ... fieldNames) { fieldFilterMap = registerFilter(fieldFilterMap, containingClass, fieldNames); } // methodNames must contain only interned Strings public static synchronized void registerMethodsToFilter(Class containingClass, String ... methodNames) { methodFilterMap = registerFilter(methodFilterMap, containingClass, methodNames); } private static Map,String[]> registerFilter(Map,String[]> map, Class containingClass, String ... names) { if (map.get(containingClass) != null) { throw new IllegalArgumentException ("Filter already registered: " + containingClass); } map = new HashMap,String[]>(map); map.put(containingClass, names); return map; } public static Field[] filterFields(Class containingClass, Field[] fields) { if (fieldFilterMap == null) { // Bootstrapping return fields; } return (Field[])filter(fields, fieldFilterMap.get(containingClass)); } public static Method[] filterMethods(Class containingClass, Method[] methods) { if (methodFilterMap == null) { // Bootstrapping return methods; } return (Method[])filter(methods, methodFilterMap.get(containingClass)); } private static Member[] filter(Member[] members, String[] filteredNames) { if ((filteredNames == null) || (members.length == 0)) { return members; } int numNewMembers = 0; for (Member member : members) { boolean shouldSkip = false; for (String filteredName : filteredNames) { if (member.getName() == filteredName) { shouldSkip = true; break; } } if (!shouldSkip) { ++numNewMembers; } } Member[] newMembers = (Member[])Array.newInstance(members[0].getClass(), numNewMembers); int destIdx = 0; for (Member member : members) { boolean shouldSkip = false; for (String filteredName : filteredNames) { if (member.getName() == filteredName) { shouldSkip = true; break; } } if (!shouldSkip) { newMembers[destIdx++] = member; } } return newMembers; } /** * Tests if the given method is caller-sensitive and the declaring class * is defined by either the bootstrap class loader or extension class loader. */ public static boolean isCallerSensitive(Method m) { final ClassLoader loader = m.getDeclaringClass().getClassLoader(); if (sun.misc.VM.isSystemDomainLoader(loader) || isExtClassLoader(loader)) { return m.isAnnotationPresent(CallerSensitive.class); } return false; } private static boolean isExtClassLoader(ClassLoader loader) { ClassLoader cl = ClassLoader.getSystemClassLoader(); while (cl != null) { if (cl.getParent() == null && cl == loader) { return true; } cl = cl.getParent(); } return false; } }