public static void main(String[] args) { System.out.println("\nRegression test for bug 4095165, 4140736\n"); TestLibrary.suggestSecurityManager("java.rmi.RMISecurityManager"); RMID rmid = null; RestartCrashedService unicastObj = null; try { RMID.removeLog(); rmid = RMID.createRMID(); rmid.start(); /* Cause activation groups to have a security policy that will * allow security managers to be downloaded and installed */ final Properties p = new Properties(); // this test must always set policies/managers in its // activation groups p.put("java.security.policy", TestParams.defaultGroupPolicy); p.put("java.security.manager", TestParams.defaultSecurityManager); /* * Create unicast object to be contacted when service is activated. */ unicastObj = new RestartCrashedService(); /* * Create and register descriptors for a restartable and * non-restartable service (respectively) in a group other than * this VM's group. */ System.err.println("Creating descriptors"); Object[] stuff = new Object[] {RESTARTABLE, unicastObj}; MarshalledObject restartMobj = new MarshalledObject(stuff); ActivationGroupDesc groupDesc = new ActivationGroupDesc(p, null); stuff[0] = ACTIVATABLE; MarshalledObject activateMobj = new MarshalledObject(stuff); ActivationGroupID groupID = ActivationGroup.getSystem().registerGroup(groupDesc); ActivationDesc restartableDesc = new ActivationDesc(groupID, "RestartCrashedService", null, restartMobj, true); ActivationDesc activatableDesc = new ActivationDesc(groupID, "RestartCrashedService", null, activateMobj, false); System.err.println("Registering descriptors"); ActivateMe restartableObj = (ActivateMe) Activatable.register(restartableDesc); ActivateMe activatableObj = (ActivateMe) Activatable.register(activatableDesc); /* * Restart rmid; it should start up the restartable service */ rmid.restart(); /* * Wait for service to be automatically restarted. */ int repeat = 1; do { for (int i = 0; i < 15; i++) { synchronized (lock) { if (unicastObj.receivedPing(RESTARTABLE) != true) { lock.wait(5000); if (unicastObj.receivedPing(RESTARTABLE) == true) { System.err.println("Test1 passed: rmid " + "restarted service"); break; } } else { break; } } } if (unicastObj.receivedPing(RESTARTABLE) != true) TestLibrary.bomb("Test1 failed: service not restarted by timeout", null); /* * Make sure activatable services wasn't automatically * restarted. */ synchronized (lock) { if (unicastObj.receivedPing(ACTIVATABLE) != true) { lock.wait(5000); if (unicastObj.receivedPing(ACTIVATABLE) != true) { System.err.println("Test2 passed: rmid did not " + "restart activatable service"); } else { TestLibrary.bomb("Test2 failed: activatable service restarted", null); } } else { TestLibrary.bomb("Test2 failed: activatable service restarted!", null); } } if (repeat > 0) { try { System.err.println("\nCrash restartable object"); unicastObj.resetResponders(); restartableObj.crash(); } catch (Exception e) { } } } while (repeat-- > 0); } catch (Exception e) { TestLibrary.bomb("test failed", e); } finally { ActivationLibrary.rmidCleanup(rmid); TestLibrary.unexport(unicastObj); } }
/** Thread to deactivate object. */ public void run() { ActivationLibrary.deactivate(this, getID()); }