8010319: Implementation of JEP 181: Nest-Based Access Control
Reviewed-by: alanb, psandoz, mchung, coleenp, acorn, mcimadamore, forax, jlahoda, sspitsyn, abuckley
Contributed-by: alex.buckley@oracle.com, maurizio.mimadamore@oracle.com, mandy.chung@oracle.com, tobias.hartmann@oracle.com, david.holmes@oracle.com, vladimir.x.ivanov@oracle.com, karen.kinnear@oracle.com, vladimir.kozlov@oracle.com, john.r.rose@oracle.com, daniel.smith@oracle.com, serguei.spitsyn@oracle.com, kumardotsrinivasan@gmail.com, boris.ulasevich@bell-sw.com
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* version 2 for more details (a copy is included in the LICENSE file that
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* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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*/
/*
* @test
* @bug 8046171
* @summary Test access to private methods between nestmates and nest-host
* using different flavours of named nested types using core reflection
* @run main TestReflection
* @run main/othervm -Dsun.reflect.noInflation=true TestReflection
*/
// The first run will use NativeMethodAccessor and due to the limited number
// of calls we will not reach the inflation threshold.
// The second run disables inflation so we will use the GeneratedMethodAccessor
// instead. In this way both sets of Reflection classes are tested.
public class TestReflection {
// Private method of nest-host for nestmates to access
private void priv_invoke() {
System.out.println("TestReflection::priv_invoke");
}
// public constructor so we aren't relying on private access
public TestReflection() {}
// Methods that will access private methods of nestmates
void access_priv(TestReflection o) throws Throwable {
o.getClass().getDeclaredMethod("priv_invoke", new Class<?>[0]).invoke(o, new Object[0]);
}
void access_priv(InnerNested o) throws Throwable {
o.getClass().getDeclaredMethod("priv_invoke", new Class<?>[0]).invoke(o, new Object[0]);
}
void access_priv(StaticNested o) throws Throwable {
o.getClass().getDeclaredMethod("priv_invoke", new Class<?>[0]).invoke(o, new Object[0]);
}
void access_priv(StaticIface o) throws Throwable {
// Can't use o.getClass() as the method is not in that class
StaticIface.class.getDeclaredMethod("priv_invoke", new Class<?>[0]).invoke(o, new Object[0]);
}
// The various nestmates
static interface StaticIface {
private void priv_invoke() {
System.out.println("StaticIface::priv_invoke");
}
// Methods that will access private methods of nestmates
default void access_priv(TestReflection o) throws Throwable {
o.getClass().getDeclaredMethod("priv_invoke", new Class<?>[0]).invoke(o, new Object[0]);
}
default void access_priv(InnerNested o) throws Throwable {
o.getClass().getDeclaredMethod("priv_invoke", new Class<?>[0]).invoke(o, new Object[0]);
}
default void access_priv(StaticNested o) throws Throwable {
o.getClass().getDeclaredMethod("priv_invoke", new Class<?>[0]).invoke(o, new Object[0]);
}
default void access_priv(StaticIface o) throws Throwable {
// Can't use o.getClass() as the method is not in that class
StaticIface.class.getDeclaredMethod("priv_invoke", new Class<?>[0]).invoke(o, new Object[0]);
}
}
static class StaticNested {
private void priv_invoke() {
System.out.println("StaticNested::priv_invoke");
}
// public constructor so we aren't relying on private access
public StaticNested() {}
// Methods that will access private methods of nestmates
void access_priv(TestReflection o) throws Throwable {
o.getClass().getDeclaredMethod("priv_invoke", new Class<?>[0]).invoke(o, new Object[0]);
}
void access_priv(InnerNested o) throws Throwable {
o.getClass().getDeclaredMethod("priv_invoke", new Class<?>[0]).invoke(o, new Object[0]);
}
void access_priv(StaticNested o) throws Throwable {
o.getClass().getDeclaredMethod("priv_invoke", new Class<?>[0]).invoke(o, new Object[0]);
}
void access_priv(StaticIface o) throws Throwable {
// Can't use o.getClass() as the method is not in that class
StaticIface.class.getDeclaredMethod("priv_invoke", new Class<?>[0]).invoke(o, new Object[0]);
}
}
class InnerNested {
private void priv_invoke() {
System.out.println("InnerNested::priv_invoke");
}
// public constructor so we aren't relying on private access
public InnerNested() {}
void access_priv(TestReflection o) throws Throwable {
o.getClass().getDeclaredMethod("priv_invoke", new Class<?>[0]).invoke(o, new Object[0]);
}
void access_priv(InnerNested o) throws Throwable {
o.getClass().getDeclaredMethod("priv_invoke", new Class<?>[0]).invoke(o, new Object[0]);
}
void access_priv(StaticNested o) throws Throwable {
o.getClass().getDeclaredMethod("priv_invoke", new Class<?>[0]).invoke(o, new Object[0]);
}
void access_priv(StaticIface o) throws Throwable {
// Can't use o.getClass() as the method is not in that class
StaticIface.class.getDeclaredMethod("priv_invoke", new Class<?>[0]).invoke(o, new Object[0]);
}
}
public static void main(String[] args) throws Throwable {
TestReflection o = new TestReflection();
StaticNested s = new StaticNested();
InnerNested i = o.new InnerNested();
StaticIface intf = new StaticIface() {};
o.access_priv(new TestReflection());
o.access_priv(i);
o.access_priv(s);
o.access_priv(intf);
s.access_priv(o);
s.access_priv(i);
s.access_priv(new StaticNested());
s.access_priv(intf);
i.access_priv(o);
i.access_priv(o.new InnerNested());
i.access_priv(s);
i.access_priv(intf);
intf.access_priv(o);
intf.access_priv(i);
intf.access_priv(s);
intf.access_priv(new StaticIface(){});
}
}