hotspot/test/runtime/modules/AccessCheck/Umod.java - platform/libcore - Git at Google

 /*
  * Copyright (c) 2016, 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 class p1.c1 defined in m1 tries to access p2.c2 defined in unnamed module.
  * @library /test/lib
  * @modules java.base/jdk.internal.misc
  * @modules java.base/jdk.internal.module
  * @compile myloaders/MySameClassLoader.java
  * @compile p2/c2.java
  * @compile p1/c1.java
  * @compile p1/c1ReadEdge.java
  * @compile p1/c1Loose.java
  * @run main/othervm -Xbootclasspath/a:. Umod
  */

 import static jdk.test.lib.Asserts.*;

 import java.lang.reflect.Layer;
 import java.lang.module.Configuration;
 import java.lang.module.ModuleDescriptor;
 import java.lang.module.ModuleFinder;
 import java.lang.reflect.Module;
 import java.util.HashMap;
 import java.util.Map;
 import java.util.Set;
 import myloaders.MySameClassLoader;

 //
 // ClassLoader1 --> defines m1 --> packages p1
 //                  package p1 in m1 is exported unqualifiedly
 //
 // class p1.c1 defined in m1 tries to access p2.c2 defined in
 // in unnamed module.
 //
 // Three access attempts occur in this test:
 //   1. The first access is not allowed because a strict module
 //      cannot read an unnamed module.
 //   2. In this scenario a strict module establishes readability
 //      to the particular unnamed module it is trying to access.
 //      Access is allowed.
 //   3. Module m1 in the test_looseModuleLayer() method
 //      is transitioned to a loose module, access
 //      to all unnamed modules is allowed.
 //
 public class Umod {

  // Create Layers over the boot layer to test different
  // accessing scenarios of a named module to an unnamed module.

  // Module m1 is a strict module and has not established
  // readability to an unnamed module that p2.c2 is defined in.
  public void test_strictModuleLayer() throws Throwable {

      // Define module:     m1
      // Can read:          java.base
      // Packages:          p1
      // Packages exported: p1 is exported unqualifiedly
      ModuleDescriptor descriptor_m1 =
              ModuleDescriptor.module("m1")
                      .requires("java.base")
                      .exports("p1")
                      .build();

      // Set up a ModuleFinder containing all modules for this layer.
      ModuleFinder finder = ModuleLibrary.of(descriptor_m1);

      // Resolves "m1"
      Configuration cf = Layer.boot()
              .configuration()
              .resolveRequires(finder, ModuleFinder.of(), Set.of("m1"));

      // map module m1 to class loader.
      // class c2 will be loaded in an unnamed module/loader.
      MySameClassLoader loader = new MySameClassLoader();
      Map<String, ClassLoader> map = new HashMap<>();
      map.put("m1", loader);

      // Create Layer that contains m1
      Layer layer = Layer.boot().defineModules(cf, map::get);

      assertTrue(layer.findLoader("m1") == loader);
      assertTrue(layer.findLoader("java.base") == null);

      // now use the same loader to load class p1.c1
      Class p1_c1_class = loader.loadClass("p1.c1");

      // Attempt access
      try {
          p1_c1_class.newInstance();
          throw new RuntimeException("Test Failed, strict module m1, type p1.c1, should not be able " +
                                     "to access public type p2.c2 defined in unnamed module");
      } catch (IllegalAccessError e) {
      }
  }

  // Module m1 is a strict module and has established
  // readability to an unnamed module that p2.c2 is defined in.
  public void test_strictModuleUnnamedReadableLayer() throws Throwable {

      // Define module:     m1
      // Can read:          java.base
      // Packages:          p1
      // Packages exported: p1 is exported unqualifiedly
      ModuleDescriptor descriptor_m1 =
              ModuleDescriptor.module("m1")
                      .requires("java.base")
                      .exports("p1")
                      .build();

      // Set up a ModuleFinder containing all modules for this layer.
      ModuleFinder finder = ModuleLibrary.of(descriptor_m1);

      // Resolves "m1"
      Configuration cf = Layer.boot()
              .configuration()
              .resolveRequires(finder, ModuleFinder.of(), Set.of("m1"));

      MySameClassLoader loader = new MySameClassLoader();
      // map module m1 to class loader.
      // class c2 will be loaded in an unnamed module/loader.
      Map<String, ClassLoader> map = new HashMap<>();
      map.put("m1", loader);

      // Create Layer that contains m1
      Layer layer = Layer.boot().defineModules(cf, map::get);

      assertTrue(layer.findLoader("m1") == loader);
      assertTrue(layer.findLoader("java.base") == null);

      // now use the same loader to load class p1.c1ReadEdge
      Class p1_c1_class = loader.loadClass("p1.c1ReadEdge");

      try {
        // Read edge between m1 and the unnamed module that loads p2.c2 is established in
        // c1ReadEdge's ctor before attempting access.
        p1_c1_class.newInstance();
      } catch (IllegalAccessError e) {
          throw new RuntimeException("Test Failed, strict module m1, type p1.c1ReadEdge, should be able to acccess public type " +
                                     "p2.c2 defined in unnamed module: " + e.getMessage());
      }
 }

  // Module m1 is a loose module and thus can read all unnamed modules.
  public void test_looseModuleLayer() throws Throwable {

      // Define module:     m1
      // Can read:          java.base
      // Packages:          p1
      // Packages exported: p1 is exported unqualifiedly
      ModuleDescriptor descriptor_m1 =
              ModuleDescriptor.module("m1")
                      .requires("java.base")
                      .exports("p1")
                      .build();

      // Set up a ModuleFinder containing all modules for this layer.
      ModuleFinder finder = ModuleLibrary.of(descriptor_m1);

      // Resolves "m1"
      Configuration cf = Layer.boot()
              .configuration()
              .resolveRequires(finder, ModuleFinder.of(), Set.of("m1"));

      MySameClassLoader loader = new MySameClassLoader();
      // map module m1 to class loader.
      // class c2 will be loaded in an unnamed module/loader.
      Map<String, ClassLoader> map = new HashMap<>();
      map.put("m1", loader);

      // Create Layer that contains m1
      Layer layer = Layer.boot().defineModules(cf, map::get);

      assertTrue(layer.findLoader("m1") == loader);
      assertTrue(layer.findLoader("java.base") == null);

      // now use the same loader to load class p1.c1Loose
      Class p1_c1_class = loader.loadClass("p1.c1Loose");

      // change m1 to read all unnamed modules
      Module m1 = layer.findModule("m1").get();
      jdk.internal.module.Modules.addReadsAllUnnamed(m1);

      try {
          p1_c1_class.newInstance();
      } catch (IllegalAccessError e) {
          throw new RuntimeException("Test Failed, strict module m1, type p1.c1Loose, should be able to acccess public type " +
                                     "p2.c2 defined in unnamed module: " + e.getMessage());
      }
  }

  public static void main(String args[]) throws Throwable {
    Umod test = new Umod();
    test.test_strictModuleLayer();                // access denied
    test.test_strictModuleUnnamedReadableLayer(); // access allowed
    test.test_looseModuleLayer();                 // access allowed
  }
 }
	/*
	* Copyright (c) 2016, 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 class p1.c1 defined in m1 tries to access p2.c2 defined in unnamed module.
	* @library /test/lib
	* @modules java.base/jdk.internal.misc
	* @modules java.base/jdk.internal.module
	* @compile myloaders/MySameClassLoader.java
	* @compile p2/c2.java
	* @compile p1/c1.java
	* @compile p1/c1ReadEdge.java
	* @compile p1/c1Loose.java
	* @run main/othervm -Xbootclasspath/a:. Umod
	*/

	import static jdk.test.lib.Asserts.*;

	import java.lang.reflect.Layer;
	import java.lang.module.Configuration;
	import java.lang.module.ModuleDescriptor;
	import java.lang.module.ModuleFinder;
	import java.lang.reflect.Module;
	import java.util.HashMap;
	import java.util.Map;
	import java.util.Set;
	import myloaders.MySameClassLoader;

	//
	// ClassLoader1 --> defines m1 --> packages p1
	// package p1 in m1 is exported unqualifiedly
	//
	// class p1.c1 defined in m1 tries to access p2.c2 defined in
	// in unnamed module.
	//
	// Three access attempts occur in this test:
	// 1. The first access is not allowed because a strict module
	// cannot read an unnamed module.
	// 2. In this scenario a strict module establishes readability
	// to the particular unnamed module it is trying to access.
	// Access is allowed.
	// 3. Module m1 in the test_looseModuleLayer() method
	// is transitioned to a loose module, access
	// to all unnamed modules is allowed.
	//
	public class Umod {

	// Create Layers over the boot layer to test different
	// accessing scenarios of a named module to an unnamed module.

	// Module m1 is a strict module and has not established
	// readability to an unnamed module that p2.c2 is defined in.
	public void test_strictModuleLayer() throws Throwable {

	// Define module: m1
	// Can read: java.base
	// Packages: p1
	// Packages exported: p1 is exported unqualifiedly
	ModuleDescriptor descriptor_m1 =
	ModuleDescriptor.module("m1")
	.requires("java.base")
	.exports("p1")
	.build();

	// Set up a ModuleFinder containing all modules for this layer.
	ModuleFinder finder = ModuleLibrary.of(descriptor_m1);

	// Resolves "m1"
	Configuration cf = Layer.boot()
	.configuration()
	.resolveRequires(finder, ModuleFinder.of(), Set.of("m1"));

	// map module m1 to class loader.
	// class c2 will be loaded in an unnamed module/loader.
	MySameClassLoader loader = new MySameClassLoader();
	Map<String, ClassLoader> map = new HashMap<>();
	map.put("m1", loader);

	// Create Layer that contains m1
	Layer layer = Layer.boot().defineModules(cf, map::get);

	assertTrue(layer.findLoader("m1") == loader);
	assertTrue(layer.findLoader("java.base") == null);

	// now use the same loader to load class p1.c1
	Class p1_c1_class = loader.loadClass("p1.c1");

	// Attempt access
	try {
	p1_c1_class.newInstance();
	throw new RuntimeException("Test Failed, strict module m1, type p1.c1, should not be able " +
	"to access public type p2.c2 defined in unnamed module");
	} catch (IllegalAccessError e) {
	}
	}

	// Module m1 is a strict module and has established
	// readability to an unnamed module that p2.c2 is defined in.
	public void test_strictModuleUnnamedReadableLayer() throws Throwable {

	// Define module: m1
	// Can read: java.base
	// Packages: p1
	// Packages exported: p1 is exported unqualifiedly
	ModuleDescriptor descriptor_m1 =
	ModuleDescriptor.module("m1")
	.requires("java.base")
	.exports("p1")
	.build();

	// Set up a ModuleFinder containing all modules for this layer.
	ModuleFinder finder = ModuleLibrary.of(descriptor_m1);

	// Resolves "m1"
	Configuration cf = Layer.boot()
	.configuration()
	.resolveRequires(finder, ModuleFinder.of(), Set.of("m1"));

	MySameClassLoader loader = new MySameClassLoader();
	// map module m1 to class loader.
	// class c2 will be loaded in an unnamed module/loader.
	Map<String, ClassLoader> map = new HashMap<>();
	map.put("m1", loader);

	// Create Layer that contains m1
	Layer layer = Layer.boot().defineModules(cf, map::get);

	assertTrue(layer.findLoader("m1") == loader);
	assertTrue(layer.findLoader("java.base") == null);

	// now use the same loader to load class p1.c1ReadEdge
	Class p1_c1_class = loader.loadClass("p1.c1ReadEdge");

	try {
	// Read edge between m1 and the unnamed module that loads p2.c2 is established in
	// c1ReadEdge's ctor before attempting access.
	p1_c1_class.newInstance();
	} catch (IllegalAccessError e) {
	throw new RuntimeException("Test Failed, strict module m1, type p1.c1ReadEdge, should be able to acccess public type " +
	"p2.c2 defined in unnamed module: " + e.getMessage());
	}
	}

	// Module m1 is a loose module and thus can read all unnamed modules.
	public void test_looseModuleLayer() throws Throwable {

	// Define module: m1
	// Can read: java.base
	// Packages: p1
	// Packages exported: p1 is exported unqualifiedly
	ModuleDescriptor descriptor_m1 =
	ModuleDescriptor.module("m1")
	.requires("java.base")
	.exports("p1")
	.build();

	// Set up a ModuleFinder containing all modules for this layer.
	ModuleFinder finder = ModuleLibrary.of(descriptor_m1);

	// Resolves "m1"
	Configuration cf = Layer.boot()
	.configuration()
	.resolveRequires(finder, ModuleFinder.of(), Set.of("m1"));

	MySameClassLoader loader = new MySameClassLoader();
	// map module m1 to class loader.
	// class c2 will be loaded in an unnamed module/loader.
	Map<String, ClassLoader> map = new HashMap<>();
	map.put("m1", loader);

	// Create Layer that contains m1
	Layer layer = Layer.boot().defineModules(cf, map::get);

	assertTrue(layer.findLoader("m1") == loader);
	assertTrue(layer.findLoader("java.base") == null);

	// now use the same loader to load class p1.c1Loose
	Class p1_c1_class = loader.loadClass("p1.c1Loose");

	// change m1 to read all unnamed modules
	Module m1 = layer.findModule("m1").get();
	jdk.internal.module.Modules.addReadsAllUnnamed(m1);

	try {
	p1_c1_class.newInstance();
	} catch (IllegalAccessError e) {
	throw new RuntimeException("Test Failed, strict module m1, type p1.c1Loose, should be able to acccess public type " +
	"p2.c2 defined in unnamed module: " + e.getMessage());
	}
	}

	public static void main(String args[]) throws Throwable {
	Umod test = new Umod();
	test.test_strictModuleLayer(); // access denied
	test.test_strictModuleUnnamedReadableLayer(); // access allowed
	test.test_looseModuleLayer(); // access allowed
	}
	}