/* * Copyright (c) 2008, 2011, 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.invoke.util; import java.lang.reflect.Modifier; import static java.lang.reflect.Modifier.*; /** * This class centralizes information about the JVM's linkage access control. * @author jrose */ public class VerifyAccess { private VerifyAccess() { } // cannot instantiate private static final int PACKAGE_ONLY = 0; private static final int PACKAGE_ALLOWED = java.lang.invoke.MethodHandles.Lookup.PACKAGE; private static final int PROTECTED_OR_PACKAGE_ALLOWED = (PACKAGE_ALLOWED|PROTECTED); private static final int ALL_ACCESS_MODES = (PUBLIC|PRIVATE|PROTECTED|PACKAGE_ONLY); private static final boolean ALLOW_NESTMATE_ACCESS = false; /** * Evaluate the JVM linkage rules for access to the given method * on behalf of a caller class which proposes to perform the access. * Return true if the caller class has privileges to invoke a method * or access a field with the given properties. * This requires an accessibility check of the referencing class, * plus an accessibility check of the member within the class, * which depends on the member's modifier flags. *

* The relevant properties include the defining class ({@code defc}) * of the member, and its modifier flags ({@code mods}). * Also relevant is the class used to make the initial symbolic reference * to the member ({@code refc}). If this latter class is not distinguished, * the defining class should be passed for both arguments ({@code defc == refc}). *

JVM Specification, 5.4.4 "Access Control"

* A field or method R is accessible to a class or interface D if * and only if any of the following conditions is true: * This discussion of access control omits a related restriction * on the target of a protected field access or method invocation * (the target must be of class D or a subtype of D). That * requirement is checked as part of the verification process * (5.4.1); it is not part of link-time access control. * @param refc the class used in the symbolic reference to the proposed member * @param defc the class in which the proposed member is actually defined * @param mods modifier flags for the proposed member * @param lookupClass the class for which the access check is being made * @return true iff the the accessing class can access such a member */ public static boolean isMemberAccessible(Class refc, // symbolic ref class Class defc, // actual def class int mods, // actual member mods Class lookupClass, int allowedModes) { if (allowedModes == 0) return false; assert((allowedModes & PUBLIC) != 0 && (allowedModes & ~(ALL_ACCESS_MODES|PACKAGE_ALLOWED)) == 0); // Usually refc and defc are the same, but if they differ, verify them both. if (refc != defc) { if (!isClassAccessible(refc, lookupClass, allowedModes)) { // Note that defc is verified in the switch below. return false; } if ((mods & (ALL_ACCESS_MODES|STATIC)) == (PROTECTED|STATIC) && (allowedModes & PROTECTED_OR_PACKAGE_ALLOWED) != 0) { // Apply the special rules for refc here. if (!isRelatedClass(refc, lookupClass)) return isSamePackage(defc, lookupClass); // If refc == defc, the call to isPublicSuperClass will do // the whole job, since in that case refc (as defc) will be // a superclass of the lookup class. } } if (defc == lookupClass && (allowedModes & PRIVATE) != 0) return true; // easy check; all self-access is OK switch (mods & ALL_ACCESS_MODES) { case PUBLIC: if (refc != defc) return true; // already checked above return isClassAccessible(refc, lookupClass, allowedModes); case PROTECTED: if ((allowedModes & PROTECTED_OR_PACKAGE_ALLOWED) != 0 && isSamePackage(defc, lookupClass)) return true; if ((allowedModes & PROTECTED) != 0 && isPublicSuperClass(defc, lookupClass)) return true; return false; case PACKAGE_ONLY: // That is, zero. Unmarked member is package-only access. return ((allowedModes & PACKAGE_ALLOWED) != 0 && isSamePackage(defc, lookupClass)); case PRIVATE: // Loosened rules for privates follows access rules for inner classes. return (ALLOW_NESTMATE_ACCESS && (allowedModes & PRIVATE) != 0 && isSamePackageMember(defc, lookupClass)); default: throw new IllegalArgumentException("bad modifiers: "+Modifier.toString(mods)); } } static boolean isRelatedClass(Class refc, Class lookupClass) { return (refc == lookupClass || refc.isAssignableFrom(lookupClass) || lookupClass.isAssignableFrom(refc)); } static boolean isPublicSuperClass(Class defc, Class lookupClass) { return isPublic(defc.getModifiers()) && defc.isAssignableFrom(lookupClass); } /** * Evaluate the JVM linkage rules for access to the given class on behalf of caller. *

JVM Specification, 5.4.4 "Access Control"

* A class or interface C is accessible to a class or interface D * if and only if either of the following conditions are true: * @param refc the symbolic reference class to which access is being checked (C) * @param lookupClass the class performing the lookup (D) */ public static boolean isClassAccessible(Class refc, Class lookupClass, int allowedModes) { if (allowedModes == 0) return false; assert((allowedModes & PUBLIC) != 0 && (allowedModes & ~(ALL_ACCESS_MODES|PACKAGE_ALLOWED)) == 0); int mods = refc.getModifiers(); if (isPublic(mods)) return true; if ((allowedModes & PACKAGE_ALLOWED) != 0 && isSamePackage(lookupClass, refc)) return true; return false; } /** * Decide if the given method type, attributed to a member or symbolic * reference of a given reference class, is really visible to that class. * @param type the supposed type of a member or symbolic reference of refc * @param refc */ public static boolean isTypeVisible(Class type, Class refc) { if (type == refc) return true; // easy check while (type.isArray()) type = type.getComponentType(); if (type.isPrimitive() || type == Object.class) return true; ClassLoader parent = type.getClassLoader(); if (parent == null) return true; ClassLoader child = refc.getClassLoader(); if (child == null) return false; if (parent == child || loadersAreRelated(parent, child, true)) return true; // Do it the hard way: Look up the type name from the refc loader. try { Class res = child.loadClass(type.getName()); return (type == res); } catch (ClassNotFoundException ex) { return false; } } /** * Decide if the given method type, attributed to a member or symbolic * reference of a given reference class, is really visible to that class. * @param type the supposed type of a member or symbolic reference of refc * @param refc */ public static boolean isTypeVisible(java.lang.invoke.MethodType type, Class refc) { for (int n = -1, max = type.parameterCount(); n < max; n++) { Class ptype = (n < 0 ? type.returnType() : type.parameterType(n)); if (!isTypeVisible(ptype, refc)) return false; } return true; } /** * Test if two classes have the same class loader and package qualifier. * @param class1 * @param class2 * @return whether they are in the same package */ public static boolean isSamePackage(Class class1, Class class2) { assert(!class1.isArray() && !class2.isArray()); if (class1 == class2) return true; if (class1.getClassLoader() != class2.getClassLoader()) return false; String name1 = class1.getName(), name2 = class2.getName(); int dot = name1.lastIndexOf('.'); if (dot != name2.lastIndexOf('.')) return false; for (int i = 0; i < dot; i++) { if (name1.charAt(i) != name2.charAt(i)) return false; } return true; } /** Return the package name for this class. */ public static String getPackageName(Class cls) { assert(!cls.isArray()); String name = cls.getName(); int dot = name.lastIndexOf('.'); if (dot < 0) return ""; return name.substring(0, dot); } /** * Test if two classes are defined as part of the same package member (top-level class). * If this is true, they can share private access with each other. * @param class1 * @param class2 * @return whether they are identical or nested together */ public static boolean isSamePackageMember(Class class1, Class class2) { if (class1 == class2) return true; if (!isSamePackage(class1, class2)) return false; if (getOutermostEnclosingClass(class1) != getOutermostEnclosingClass(class2)) return false; return true; } private static Class getOutermostEnclosingClass(Class c) { Class pkgmem = c; for (Class enc = c; (enc = enc.getEnclosingClass()) != null; ) pkgmem = enc; return pkgmem; } private static boolean loadersAreRelated(ClassLoader loader1, ClassLoader loader2, boolean loader1MustBeParent) { if (loader1 == loader2 || loader1 == null || (loader2 == null && !loader1MustBeParent)) { return true; } for (ClassLoader scan2 = loader2; scan2 != null; scan2 = scan2.getParent()) { if (scan2 == loader1) return true; } if (loader1MustBeParent) return false; // see if loader2 is a parent of loader1: for (ClassLoader scan1 = loader1; scan1 != null; scan1 = scan1.getParent()) { if (scan1 == loader2) return true; } return false; } /** * Is the class loader of parentClass identical to, or an ancestor of, * the class loader of childClass? * @param parentClass * @param childClass * @return whether parentClass precedes or equals childClass in class loader order */ public static boolean classLoaderIsAncestor(Class parentClass, Class childClass) { return loadersAreRelated(parentClass.getClassLoader(), childClass.getClassLoader(), true); } }