7165628: Issues with java.lang.invoke.MethodHandles.Lookup
authorjrose
Fri, 18 May 2012 20:31:28 -0700
changeset 13044 8411854afc2b
parent 13043 10fa4f21ea0f
child 13045 e915a5b3885c
7165628: Issues with java.lang.invoke.MethodHandles.Lookup Summary: Base SecurityManager checks on either of Lookup.lookupClass or caller class; also clarify Lookup access checks. Reviewed-by: twisti
jdk/src/share/classes/java/lang/invoke/MethodHandles.java
jdk/src/share/classes/sun/invoke/util/VerifyAccess.java
jdk/test/java/lang/invoke/AccessControlTest.java
jdk/test/java/lang/invoke/AccessControlTest_subpkg/Acquaintance_remote.java
--- a/jdk/src/share/classes/java/lang/invoke/MethodHandles.java	Thu May 17 12:21:16 2012 +0100
+++ b/jdk/src/share/classes/java/lang/invoke/MethodHandles.java	Fri May 18 20:31:28 2012 -0700
@@ -407,7 +407,7 @@
          * an access$N method.
          */
         Lookup() {
-            this(getCallerClassAtEntryPoint(), ALL_MODES);
+            this(getCallerClassAtEntryPoint(false), ALL_MODES);
             // make sure we haven't accidentally picked up a privileged class:
             checkUnprivilegedlookupClass(lookupClass);
         }
@@ -461,8 +461,8 @@
                 && !VerifyAccess.isSamePackageMember(this.lookupClass, requestedLookupClass)) {
                 newModes &= ~PRIVATE;
             }
-            if (newModes == PUBLIC
-                && !VerifyAccess.isClassAccessible(requestedLookupClass, this.lookupClass)) {
+            if ((newModes & PUBLIC) != 0
+                && !VerifyAccess.isClassAccessible(requestedLookupClass, this.lookupClass, allowedModes)) {
                 // The requested class it not accessible from the lookup class.
                 // No permissions.
                 newModes = 0;
@@ -540,13 +540,17 @@
             }
         }
 
-        // call this from an entry point method in Lookup with extraFrames=0.
-        private static Class<?> getCallerClassAtEntryPoint() {
+        /* Obtain the external caller class, when called from Lookup.<init> or a first-level subroutine. */
+        private static Class<?> getCallerClassAtEntryPoint(boolean inSubroutine) {
             final int CALLER_DEPTH = 4;
+            //  Stack for the constructor entry point (inSubroutine=false):
             // 0: Reflection.getCC, 1: getCallerClassAtEntryPoint,
             // 2: Lookup.<init>, 3: MethodHandles.*, 4: caller
+            //  The stack is slightly different for a subroutine of a Lookup.find* method:
+            // 2: Lookup.*, 3: Lookup.find*.*, 4: caller
             // Note:  This should be the only use of getCallerClass in this file.
-            assert(Reflection.getCallerClass(CALLER_DEPTH-1) == MethodHandles.class);
+            assert(Reflection.getCallerClass(CALLER_DEPTH-2) == Lookup.class);
+            assert(Reflection.getCallerClass(CALLER_DEPTH-1) == (inSubroutine ? Lookup.class : MethodHandles.class));
             return Reflection.getCallerClass(CALLER_DEPTH);
         }
 
@@ -1087,7 +1091,7 @@
 
         void checkSymbolicClass(Class<?> refc) throws IllegalAccessException {
             Class<?> caller = lookupClassOrNull();
-            if (caller != null && !VerifyAccess.isClassAccessible(refc, caller))
+            if (caller != null && !VerifyAccess.isClassAccessible(refc, caller, allowedModes))
                 throw new MemberName(refc).makeAccessException("symbolic reference class is not public", this);
         }
 
@@ -1102,7 +1106,13 @@
             // Step 1:
             smgr.checkMemberAccess(refc, Member.PUBLIC);
             // Step 2:
-            if (!VerifyAccess.classLoaderIsAncestor(lookupClass, refc))
+            Class<?> callerClass = ((allowedModes & PRIVATE) != 0
+                                    ? lookupClass  // for strong access modes, no extra check
+                                    // next line does stack walk magic; do not refactor:
+                                    : getCallerClassAtEntryPoint(true));
+            if (!VerifyAccess.classLoaderIsAncestor(lookupClass, refc) ||
+                (callerClass != lookupClass &&
+                 !VerifyAccess.classLoaderIsAncestor(callerClass, refc)))
                 smgr.checkPackageAccess(VerifyAccess.getPackageName(refc));
             // Step 3:
             if (m.isPublic()) return;
@@ -1153,9 +1163,10 @@
             int requestedModes = fixmods(mods);  // adjust 0 => PACKAGE
             if ((requestedModes & allowedModes) != 0
                 && VerifyAccess.isMemberAccessible(refc, m.getDeclaringClass(),
-                                                   mods, lookupClass()))
+                                                   mods, lookupClass(), allowedModes))
                 return;
             if (((requestedModes & ~allowedModes) & PROTECTED) != 0
+                && (allowedModes & PACKAGE) != 0
                 && VerifyAccess.isSamePackage(m.getDeclaringClass(), lookupClass()))
                 // Protected members can also be checked as if they were package-private.
                 return;
@@ -1170,9 +1181,9 @@
                                (defc == refc ||
                                 Modifier.isPublic(refc.getModifiers())));
             if (!classOK && (allowedModes & PACKAGE) != 0) {
-                classOK = (VerifyAccess.isClassAccessible(defc, lookupClass()) &&
+                classOK = (VerifyAccess.isClassAccessible(defc, lookupClass(), ALL_MODES) &&
                            (defc == refc ||
-                            VerifyAccess.isClassAccessible(refc, lookupClass())));
+                            VerifyAccess.isClassAccessible(refc, lookupClass(), ALL_MODES)));
             }
             if (!classOK)
                 return "class is not public";
--- a/jdk/src/share/classes/sun/invoke/util/VerifyAccess.java	Thu May 17 12:21:16 2012 +0100
+++ b/jdk/src/share/classes/sun/invoke/util/VerifyAccess.java	Fri May 18 20:31:28 2012 -0700
@@ -37,6 +37,8 @@
     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;
 
@@ -82,14 +84,19 @@
     public static boolean isMemberAccessible(Class<?> refc,  // symbolic ref class
                                              Class<?> defc,  // actual def class
                                              int      mods,  // actual member mods
-                                             Class<?> lookupClass) {
+                                             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)) {
+            if (!isClassAccessible(refc, lookupClass, allowedModes)) {
                 // Note that defc is verified in the switch below.
                 return false;
             }
-            if ((mods & (ALL_ACCESS_MODES|STATIC)) == (PROTECTED|STATIC)) {
+            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);
@@ -98,19 +105,28 @@
                 // a superclass of the lookup class.
             }
         }
-        if (defc == lookupClass)
+        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);
+            return isClassAccessible(refc, lookupClass, allowedModes);
         case PROTECTED:
-            return isSamePackage(defc, lookupClass) || isPublicSuperClass(defc, lookupClass);
-        case PACKAGE_ONLY:
-            return isSamePackage(defc, lookupClass);
+            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));
@@ -138,11 +154,16 @@
      * @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) {
+    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 (isSamePackage(lookupClass, refc))
+        if ((allowedModes & PACKAGE_ALLOWED) != 0 &&
+            isSamePackage(lookupClass, refc))
             return true;
         return false;
     }
@@ -157,7 +178,7 @@
         assert(!class1.isArray() && !class2.isArray());
         if (class1 == class2)
             return true;
-        if (!loadersAreRelated(class1.getClassLoader(), class2.getClassLoader(), false))
+        if (class1.getClassLoader() != class2.getClassLoader())
             return false;
         String name1 = class1.getName(), name2 = class2.getName();
         int dot = name1.lastIndexOf('.');
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/jdk/test/java/lang/invoke/AccessControlTest.java	Fri May 18 20:31:28 2012 -0700
@@ -0,0 +1,495 @@
+/*
+ * Copyright (c) 2012, 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.
+ */
+
+/* @test
+ * @summary test access checking by java.lang.invoke.MethodHandles.Lookup
+ * @library ../../../..
+ * @build test.java.lang.invoke.AccessControlTest
+ * @build test.java.lang.invoke.AccessControlTest_subpkg.Acquaintance_remote
+ * @run junit/othervm test.java.lang.invoke.AccessControlTest
+ */
+
+package test.java.lang.invoke;
+
+import java.lang.invoke.*;
+import java.lang.reflect.*;
+import java.util.*;
+import org.junit.*;
+
+import static java.lang.invoke.MethodHandles.*;
+import static java.lang.invoke.MethodHandles.Lookup.*;
+import static java.lang.invoke.MethodType.*;
+import static org.junit.Assert.*;
+import test.java.lang.invoke.AccessControlTest_subpkg.Acquaintance_remote;
+
+
+/**
+ * Test many combinations of Lookup access and cross-class lookupStatic.
+ * @author jrose
+ */
+public class AccessControlTest {
+    static final Class<?> THIS_CLASS = AccessControlTest.class;
+    // How much output?
+    static int verbosity = 0;
+    static {
+        String vstr = System.getProperty(THIS_CLASS.getSimpleName()+".verbosity");
+        if (vstr == null)
+            vstr = System.getProperty(THIS_CLASS.getName()+".verbosity");
+        if (vstr != null)  verbosity = Integer.parseInt(vstr);
+    }
+
+    private class LookupCase implements Comparable<LookupCase> {
+        final Lookup   lookup;
+        final Class<?> lookupClass;
+        final int      lookupModes;
+        public LookupCase(Lookup lookup) {
+            this.lookup = lookup;
+            this.lookupClass = lookup.lookupClass();
+            this.lookupModes = lookup.lookupModes();
+            assert(lookupString().equals(lookup.toString()));
+            numberOf(lookupClass().getClassLoader()); // assign CL#
+        }
+        public LookupCase(Class<?> lookupClass, int lookupModes) {
+            this.lookup = null;
+            this.lookupClass = lookupClass;
+            this.lookupModes = lookupModes;
+            numberOf(lookupClass().getClassLoader()); // assign CL#
+        }
+
+        public final Class<?> lookupClass() { return lookupClass; }
+        public final int      lookupModes() { return lookupModes; }
+
+        public Lookup lookup() { lookup.getClass(); return lookup; }
+
+        @Override
+        public int compareTo(LookupCase that) {
+            Class<?> c1 = this.lookupClass();
+            Class<?> c2 = that.lookupClass();
+            if (c1 != c2) {
+                int cmp = c1.getName().compareTo(c2.getName());
+                if (cmp != 0)  return cmp;
+                cmp = numberOf(c1.getClassLoader()) - numberOf(c2.getClassLoader());
+                assert(cmp != 0);
+                return cmp;
+            }
+            return -(this.lookupModes() - that.lookupModes());
+        }
+
+        @Override
+        public boolean equals(Object that) {
+            return (that instanceof LookupCase && equals((LookupCase)that));
+        }
+        public boolean equals(LookupCase that) {
+            return (this.lookupClass() == that.lookupClass() &&
+                    this.lookupModes() == that.lookupModes());
+        }
+
+        @Override
+        public int hashCode() {
+            return lookupClass().hashCode() + (lookupModes() * 31);
+        }
+
+        /** Simulate all assertions in the spec. for Lookup.toString. */
+        private String lookupString() {
+            String name = lookupClass.getName();
+            String suffix = "";
+            if (lookupModes == 0)
+                suffix = "/noaccess";
+            else if (lookupModes == PUBLIC)
+                suffix = "/public";
+            else if (lookupModes == (PUBLIC|PACKAGE))
+                suffix = "/package";
+            else if (lookupModes == (PUBLIC|PACKAGE|PRIVATE))
+                suffix = "/private";
+            else if (lookupModes == (PUBLIC|PACKAGE|PRIVATE|PROTECTED))
+                suffix = "";
+            else
+                suffix = "/#"+Integer.toHexString(lookupModes);
+            return name+suffix;
+        }
+
+        /** Simulate all assertions from the spec. for Lookup.in:
+         * <hr/>
+         * Creates a lookup on the specified new lookup class.
+         * [A1] The resulting object will report the specified
+         * class as its own {@link #lookupClass lookupClass}.
+         * <p>
+         * [A2] However, the resulting {@code Lookup} object is guaranteed
+         * to have no more access capabilities than the original.
+         * In particular, access capabilities can be lost as follows:<ul>
+         * <li>[A3] If the new lookup class differs from the old one,
+         * protected members will not be accessible by virtue of inheritance.
+         * (Protected members may continue to be accessible because of package sharing.)
+         * <li>[A4] If the new lookup class is in a different package
+         * than the old one, protected and default (package) members will not be accessible.
+         * <li>[A5] If the new lookup class is not within the same package member
+         * as the old one, private members will not be accessible.
+         * <li>[A6] If the new lookup class is not accessible to the old lookup class,
+         * using the original access modes,
+         * then no members, not even public members, will be accessible.
+         * [A7] (In all other cases, public members will continue to be accessible.)
+         * </ul>
+         * Other than the above cases, the new lookup will have the same
+         * access capabilities as the original. [A8]
+         * <hr/>
+         */
+        public LookupCase in(Class<?> c2) {
+            Class<?> c1 = lookupClass();
+            int m1 = lookupModes();
+            int changed = 0;
+            boolean samePackage = (c1.getClassLoader() == c2.getClassLoader() &&
+                                   packagePrefix(c1).equals(packagePrefix(c2)));
+            boolean sameTopLevel = (topLevelClass(c1) == topLevelClass(c2));
+            boolean sameClass = (c1 == c2);
+            assert(samePackage  || !sameTopLevel);
+            assert(sameTopLevel || !sameClass);
+            boolean accessible = sameClass;  // [A6]
+            if ((m1 & PACKAGE) != 0)  accessible |= samePackage;
+            if ((m1 & PUBLIC ) != 0)  accessible |= (c2.getModifiers() & PUBLIC) != 0;
+            if (!accessible) {
+                // Different package and no access to c2; lose all access.
+                changed |= (PUBLIC|PACKAGE|PRIVATE|PROTECTED);  // [A6]
+            }
+            if (!samePackage) {
+                // Different package; lose PACKAGE and lower access.
+                changed |= (PACKAGE|PRIVATE|PROTECTED);  // [A4]
+            }
+            if (!sameTopLevel) {
+                // Different top-level class.  Lose PRIVATE and lower access.
+                changed |= (PRIVATE|PROTECTED);  // [A5]
+            }
+            if (!sameClass) {
+                changed |= (PROTECTED);     // [A3]
+            } else {
+                assert(changed == 0);       // [A8] (no deprivation if same class)
+            }
+            if (accessible)  assert((changed & PUBLIC) == 0);  // [A7]
+            int m2 = m1 & ~changed;
+            LookupCase l2 = new LookupCase(c2, m2);
+            assert(l2.lookupClass() == c2); // [A1]
+            assert((m1 | m2) == m1);        // [A2] (no elevation of access)
+            return l2;
+        }
+
+        @Override
+        public String toString() {
+            String s = lookupClass().getSimpleName();
+            String lstr = lookupString();
+            int sl = lstr.indexOf('/');
+            if (sl >= 0)  s += lstr.substring(sl);
+            ClassLoader cld = lookupClass().getClassLoader();
+            if (cld != THIS_LOADER)  s += "/loader#"+numberOf(cld);
+            return s;
+        }
+
+        /** Predict the success or failure of accessing this method. */
+        public boolean willAccess(Method m) {
+            Class<?> c1 = lookupClass();
+            Class<?> c2 = m.getDeclaringClass();
+            LookupCase lc = this.in(c2);
+            int m1 = lc.lookupModes();
+            int m2 = fixMods(m.getModifiers());
+            // privacy is strictly enforced on lookups
+            if (c1 != c2)  m1 &= ~PRIVATE;
+            // protected access is sometimes allowed
+            if ((m2 & PROTECTED) != 0) {
+                int prev = m2;
+                m2 |= PACKAGE;  // it acts like a package method also
+                if ((lookupModes() & PROTECTED) != 0 &&
+                    c2.isAssignableFrom(c1))
+                    m2 |= PUBLIC;  // from a subclass, it acts like a public method also
+            }
+            if (verbosity >= 2)
+                System.out.println(this+" willAccess "+lc+" m1="+m1+" m2="+m2+" => "+((m2 & m1) != 0));
+            return (m2 & m1) != 0;
+        }
+    }
+
+    private static Class<?> topLevelClass(Class<?> cls) {
+        Class<?> c = cls;
+        for (Class<?> ec; (ec = c.getEnclosingClass()) != null; )
+            c = ec;
+        assert(c.getEnclosingClass() == null);
+        assert(c == cls || cls.getEnclosingClass() != null);
+        return c;
+    }
+
+    private static String packagePrefix(Class<?> c) {
+        while (c.isArray())  c = c.getComponentType();
+        String s = c.getName();
+        assert(s.indexOf('/') < 0);
+        return s.substring(0, s.lastIndexOf('.')+1);
+    }
+
+
+    private final TreeSet<LookupCase> CASES = new TreeSet<>();
+    private final TreeMap<LookupCase,TreeSet<LookupCase>> CASE_EDGES = new TreeMap<>();
+    private final ArrayList<ClassLoader> LOADERS = new ArrayList<>();
+    private final ClassLoader THIS_LOADER = this.getClass().getClassLoader();
+    { if (THIS_LOADER != null)  LOADERS.add(THIS_LOADER); }  // #1
+
+    private LookupCase lookupCase(String name) {
+        for (LookupCase lc : CASES) {
+            if (lc.toString().equals(name))
+                return lc;
+        }
+        throw new AssertionError(name);
+    }
+
+    private int numberOf(ClassLoader cl) {
+        if (cl == null)  return 0;
+        int i = LOADERS.indexOf(cl);
+        if (i < 0) {
+            i = LOADERS.size();
+            LOADERS.add(cl);
+        }
+        return i+1;
+    }
+
+    private void addLookupEdge(LookupCase l1, Class<?> c2, LookupCase l2) {
+        TreeSet<LookupCase> edges = CASE_EDGES.get(l2);
+        if (edges == null)  CASE_EDGES.put(l2, edges = new TreeSet<>());
+        if (edges.add(l1)) {
+            Class<?> c1 = l1.lookupClass();
+            assert(l2.lookupClass() == c2); // [A1]
+            int m1 = l1.lookupModes();
+            int m2 = l2.lookupModes();
+            assert((m1 | m2) == m1);        // [A2] (no elevation of access)
+            LookupCase expect = l1.in(c2);
+            if (!expect.equals(l2))
+                System.out.println("*** expect "+l1+" => "+expect+" but got "+l2);
+            assertEquals(expect, l2);
+        }
+    }
+
+    private void makeCases(Lookup[] originalLookups) {
+        // make initial set of lookup test cases
+        CASES.clear(); LOADERS.clear(); CASE_EDGES.clear();
+        ArrayList<Class<?>> classes = new ArrayList<>();
+        for (Lookup l : originalLookups) {
+            CASES.add(new LookupCase(l));
+            classes.remove(l.lookupClass());  // no dups please
+            classes.add(l.lookupClass());
+        }
+        System.out.println("loaders = "+LOADERS);
+        int rounds = 0;
+        for (int lastCount = -1; lastCount != CASES.size(); ) {
+            lastCount = CASES.size();  // if CASES grow in the loop we go round again
+            for (LookupCase lc1 : CASES.toArray(new LookupCase[0])) {
+                for (Class<?> c2 : classes) {
+                    LookupCase lc2 = new LookupCase(lc1.lookup().in(c2));
+                    addLookupEdge(lc1, c2, lc2);
+                    CASES.add(lc2);
+                }
+            }
+            rounds++;
+        }
+        System.out.println("filled in "+CASES.size()+" cases from "+originalLookups.length+" original cases in "+rounds+" rounds");
+        if (false) {
+            System.out.println("CASES: {");
+            for (LookupCase lc : CASES) {
+                System.out.println(lc);
+                Set<LookupCase> edges = CASE_EDGES.get(lc);
+                if (edges != null)
+                    for (LookupCase prev : edges) {
+                        System.out.println("\t"+prev);
+                    }
+            }
+            System.out.println("}");
+        }
+    }
+
+    @Test public void test() {
+        makeCases(lookups());
+        if (verbosity > 0) {
+            verbosity += 9;
+            Method pro_in_self = targetMethod(THIS_CLASS, PROTECTED, methodType(void.class));
+            testOneAccess(lookupCase("AccessControlTest/public"),  pro_in_self, "find");
+            testOneAccess(lookupCase("Remote_subclass/public"),    pro_in_self, "find");
+            testOneAccess(lookupCase("Remote_subclass"),           pro_in_self, "find");
+            verbosity -= 9;
+        }
+        Set<Class<?>> targetClassesDone = new HashSet<>();
+        for (LookupCase targetCase : CASES) {
+            Class<?> targetClass = targetCase.lookupClass();
+            if (!targetClassesDone.add(targetClass))  continue;  // already saw this one
+            String targetPlace = placeName(targetClass);
+            if (targetPlace == null)  continue;  // Object, String, not a target
+            for (int targetAccess : ACCESS_CASES) {
+                MethodType methodType = methodType(void.class);
+                Method method = targetMethod(targetClass, targetAccess, methodType);
+                // Try to access target method from various contexts.
+                for (LookupCase sourceCase : CASES) {
+                    testOneAccess(sourceCase, method, "find");
+                    testOneAccess(sourceCase, method, "unreflect");
+                }
+            }
+        }
+        System.out.println("tested "+testCount+" access scenarios; "+testCountFails+" accesses were denied");
+    }
+
+    private int testCount, testCountFails;
+
+    private void testOneAccess(LookupCase sourceCase, Method method, String kind) {
+        Class<?> targetClass = method.getDeclaringClass();
+        String methodName = method.getName();
+        MethodType methodType = methodType(method.getReturnType(), method.getParameterTypes());
+        boolean willAccess = sourceCase.willAccess(method);
+        boolean didAccess = false;
+        ReflectiveOperationException accessError = null;
+        try {
+            switch (kind) {
+            case "find":
+                if ((method.getModifiers() & Modifier.STATIC) != 0)
+                    sourceCase.lookup().findStatic(targetClass, methodName, methodType);
+                else
+                    sourceCase.lookup().findVirtual(targetClass, methodName, methodType);
+                break;
+            case "unreflect":
+                sourceCase.lookup().unreflect(method);
+                break;
+            default:
+                throw new AssertionError(kind);
+            }
+            didAccess = true;
+        } catch (ReflectiveOperationException ex) {
+            accessError = ex;
+        }
+        if (willAccess != didAccess) {
+            System.out.println(sourceCase+" => "+targetClass.getSimpleName()+"."+methodName+methodType);
+            System.out.println("fail on "+method+" ex="+accessError);
+            assertEquals(willAccess, didAccess);
+        }
+        testCount++;
+        if (!didAccess)  testCountFails++;
+    }
+
+    static Method targetMethod(Class<?> targetClass, int targetAccess, MethodType methodType) {
+        String methodName = accessName(targetAccess)+placeName(targetClass);
+        if (verbosity >= 2)
+            System.out.println(targetClass.getSimpleName()+"."+methodName+methodType);
+        try {
+            Method method = targetClass.getDeclaredMethod(methodName, methodType.parameterArray());
+            assertEquals(method.getReturnType(), methodType.returnType());
+            int haveMods = method.getModifiers();
+            assert(Modifier.isStatic(haveMods));
+            assert(targetAccess == fixMods(haveMods));
+            return method;
+        } catch (NoSuchMethodException ex) {
+            throw new AssertionError(methodName, ex);
+        }
+    }
+
+    static String placeName(Class<?> cls) {
+        // return "self", "sibling", "nestmate", etc.
+        if (cls == AccessControlTest.class)  return "self";
+        String cln = cls.getSimpleName();
+        int under = cln.lastIndexOf('_');
+        if (under < 0)  return null;
+        return cln.substring(under+1);
+    }
+    static String accessName(int acc) {
+        switch (acc) {
+        case PUBLIC:     return "pub_in_";
+        case PROTECTED:  return "pro_in_";
+        case PACKAGE:    return "pkg_in_";
+        case PRIVATE:    return "pri_in_";
+        }
+        assert(false);
+        return "?";
+    }
+    private static final int[] ACCESS_CASES = {
+        PUBLIC, PACKAGE, PRIVATE, PROTECTED
+    };
+    /** Return one of the ACCESS_CASES. */
+    static int fixMods(int mods) {
+        mods &= (PUBLIC|PRIVATE|PROTECTED);
+        switch (mods) {
+        case PUBLIC: case PRIVATE: case PROTECTED: return mods;
+        case 0:  return PACKAGE;
+        }
+        throw new AssertionError(mods);
+    }
+
+    static Lookup[] lookups() {
+        ArrayList<Lookup> tem = new ArrayList<>();
+        Collections.addAll(tem,
+                           AccessControlTest.lookup_in_self(),
+                           Inner_nestmate.lookup_in_nestmate(),
+                           AccessControlTest_sibling.lookup_in_sibling());
+        if (true) {
+            Collections.addAll(tem,Acquaintance_remote.lookups());
+        } else {
+            try {
+                Class<?> remc = Class.forName("test.java.lang.invoke.AccessControlTest_subpkg.Acquaintance_remote");
+                Lookup[] remls = (Lookup[]) remc.getMethod("lookups").invoke(null);
+                Collections.addAll(tem, remls);
+            } catch (ReflectiveOperationException ex) {
+                throw new LinkageError("reflection failed", ex);
+            }
+        }
+        tem.add(publicLookup());
+        tem.add(publicLookup().in(String.class));
+        tem.add(publicLookup().in(List.class));
+        return tem.toArray(new Lookup[0]);
+    }
+
+    static Lookup lookup_in_self() {
+        return MethodHandles.lookup();
+    }
+    static public      void pub_in_self() { }
+    static protected   void pro_in_self() { }
+    static /*package*/ void pkg_in_self() { }
+    static private     void pri_in_self() { }
+
+    static class Inner_nestmate {
+        static Lookup lookup_in_nestmate() {
+            return MethodHandles.lookup();
+        }
+        static public      void pub_in_nestmate() { }
+        static protected   void pro_in_nestmate() { }
+        static /*package*/ void pkg_in_nestmate() { }
+        static private     void pri_in_nestmate() { }
+    }
+}
+class AccessControlTest_sibling {
+    static Lookup lookup_in_sibling() {
+        return MethodHandles.lookup();
+    }
+    static public      void pub_in_sibling() { }
+    static protected   void pro_in_sibling() { }
+    static /*package*/ void pkg_in_sibling() { }
+    static private     void pri_in_sibling() { }
+}
+
+// This guy tests access from outside the package:
+/*
+package test.java.lang.invoke.AccessControlTest_subpkg;
+public class Acquaintance_remote {
+    public static Lookup[] lookups() { ...
+    }
+    ...
+}
+*/
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/jdk/test/java/lang/invoke/AccessControlTest_subpkg/Acquaintance_remote.java	Fri May 18 20:31:28 2012 -0700
@@ -0,0 +1,42 @@
+package test.java.lang.invoke.AccessControlTest_subpkg;
+import test.java.lang.invoke.AccessControlTest;
+import java.lang.invoke.*;
+import static java.lang.invoke.MethodHandles.*;
+
+// This guy tests access from outside the package test.java.lang.invoke:
+public class Acquaintance_remote {
+    public static Lookup[] lookups() {
+        return new Lookup[] {
+            Acquaintance_remote.lookup_in_remote(),
+            Remote_subclass.lookup_in_subclass(),
+            Remote_hidden.lookup_in_hidden()
+        };
+    }
+
+    public static Lookup lookup_in_remote() {
+        return MethodHandles.lookup();
+    }
+    static public      void pub_in_remote() { }
+    static protected   void pro_in_remote() { }
+    static /*package*/ void pkg_in_remote() { }
+    static private     void pri_in_remote() { }
+
+    static public class Remote_subclass extends AccessControlTest {
+        static Lookup lookup_in_subclass() {
+            return MethodHandles.lookup();
+        }
+        static public      void pub_in_subclass() { }
+        static protected   void pro_in_subclass() { }
+        static /*package*/ void pkg_in_subclass() { }
+        static private     void pri_in_subclass() { }
+    }
+    static /*package*/ class Remote_hidden {
+        static Lookup lookup_in_hidden() {
+            return MethodHandles.lookup();
+        }
+        static public      void pub_in_hidden() { }
+        static protected   void pro_in_hidden() { }
+        static /*package*/ void pkg_in_hidden() { }
+        static private     void pri_in_hidden() { }
+    }
+}