Example #1
0
    allTests(Test.TestHelper helper, int num)
    {
        var output = helper.getWriter();

        Ice.Communicator     communicator    = helper.communicator();
        List <ControllerPrx> proxies         = new List <ControllerPrx>();
        List <ControllerPrx> indirectProxies = new List <ControllerPrx>();

        for (int i = 0; i < num; ++i)
        {
            string id = "controller" + i;
            proxies.Add(ControllerPrxHelper.uncheckedCast(communicator.stringToProxy(id)));
            indirectProxies.Add(ControllerPrxHelper.uncheckedCast(communicator.stringToProxy(id + "@control" + i)));
        }

        output.Write("testing indirect proxies... ");
        output.Flush();
        {
            foreach (ControllerPrx prx in indirectProxies)
            {
                prx.ice_ping();
            }
        }
        output.WriteLine("ok");

        output.Write("testing well-known proxies... ");
        output.Flush();
        {
            foreach (ControllerPrx prx in proxies)
            {
                prx.ice_ping();
            }
        }
        output.WriteLine("ok");

        output.Write("testing object adapter registration... ");
        output.Flush();
        {
            try
            {
                communicator.stringToProxy("object @ oa1").ice_ping();
                test(false);
            }
            catch (Ice.NoEndpointException)
            {
            }

            proxies[0].activateObjectAdapter("oa", "oa1", "");

            try
            {
                communicator.stringToProxy("object @ oa1").ice_ping();
                test(false);
            }
            catch (Ice.ObjectNotExistException)
            {
            }

            proxies[0].deactivateObjectAdapter("oa");

            try
            {
                communicator.stringToProxy("object @ oa1").ice_ping();
                test(false);
            }
            catch (Ice.NoEndpointException)
            {
            }
        }
        output.WriteLine("ok");

        output.Write("testing object adapter migration...");
        output.Flush();
        {
            proxies[0].activateObjectAdapter("oa", "oa1", "");
            proxies[0].addObject("oa", "object");
            communicator.stringToProxy("object @ oa1").ice_ping();
            proxies[0].removeObject("oa", "object");
            proxies[0].deactivateObjectAdapter("oa");

            proxies[1].activateObjectAdapter("oa", "oa1", "");
            proxies[1].addObject("oa", "object");
            communicator.stringToProxy("object @ oa1").ice_ping();
            proxies[1].removeObject("oa", "object");
            proxies[1].deactivateObjectAdapter("oa");
        }
        output.WriteLine("ok");

        output.Write("testing object migration...");
        output.Flush();
        {
            proxies[0].activateObjectAdapter("oa", "oa1", "");
            proxies[1].activateObjectAdapter("oa", "oa2", "");

            proxies[0].addObject("oa", "object");
            communicator.stringToProxy("object @ oa1").ice_ping();
            communicator.stringToProxy("object").ice_ping();
            proxies[0].removeObject("oa", "object");

            proxies[1].addObject("oa", "object");
            communicator.stringToProxy("object @ oa2").ice_ping();
            communicator.stringToProxy("object").ice_ping();
            proxies[1].removeObject("oa", "object");

            try
            {
                communicator.stringToProxy("object @ oa1").ice_ping();
            }
            catch (Ice.ObjectNotExistException)
            {
            }
            try
            {
                communicator.stringToProxy("object @ oa2").ice_ping();
            }
            catch (Ice.ObjectNotExistException)
            {
            }

            proxies[0].deactivateObjectAdapter("oa");
            proxies[1].deactivateObjectAdapter("oa");
        }
        output.WriteLine("ok");

        output.Write("testing replica groups...");
        output.Flush();
        {
            proxies[0].activateObjectAdapter("oa", "oa1", "rg");
            proxies[1].activateObjectAdapter("oa", "oa2", "rg");
            proxies[2].activateObjectAdapter("oa", "oa3", "rg");

            proxies[0].addObject("oa", "object");
            proxies[1].addObject("oa", "object");
            proxies[2].addObject("oa", "object");

            communicator.stringToProxy("object @ oa1").ice_ping();
            communicator.stringToProxy("object @ oa2").ice_ping();
            communicator.stringToProxy("object @ oa3").ice_ping();

            communicator.stringToProxy("object @ rg").ice_ping();

            List <string> adapterIds = new List <string>();
            adapterIds.Add("oa1");
            adapterIds.Add("oa2");
            adapterIds.Add("oa3");
            TestIntfPrx intf = TestIntfPrxHelper.uncheckedCast(communicator.stringToProxy("object"));
            intf = (TestIntfPrx)intf.ice_connectionCached(false).ice_locatorCacheTimeout(0);
            while (adapterIds.Count > 0)
            {
                adapterIds.Remove(intf.getAdapterId());
            }

            while (true)
            {
                adapterIds.Add("oa1");
                adapterIds.Add("oa2");
                adapterIds.Add("oa3");
                intf = TestIntfPrxHelper.uncheckedCast(
                    communicator.stringToProxy("object @ rg").ice_connectionCached(false));
                int nRetry = 100;
                while (adapterIds.Count > 0 && --nRetry > 0)
                {
                    adapterIds.Remove(intf.getAdapterId());
                }
                if (nRetry > 0)
                {
                    break;
                }

                // The previous locator lookup probably didn't return all the replicas... try again.
                communicator.stringToProxy("object @ rg").ice_locatorCacheTimeout(0).ice_ping();
            }

            proxies[0].deactivateObjectAdapter("oa");
            proxies[1].deactivateObjectAdapter("oa");
            test(TestIntfPrxHelper.uncheckedCast(
                     communicator.stringToProxy("object @ rg")).getAdapterId().Equals("oa3"));
            proxies[2].deactivateObjectAdapter("oa");

            proxies[0].activateObjectAdapter("oa", "oa1", "rg");
            proxies[0].addObject("oa", "object");
            test(TestIntfPrxHelper.uncheckedCast(
                     communicator.stringToProxy("object @ rg")).getAdapterId().Equals("oa1"));
            proxies[0].deactivateObjectAdapter("oa");
        }
        output.WriteLine("ok");

        output.Write("testing invalid lookup endpoints... ");
        output.Flush();
        {
            String multicast;
            if (communicator.getProperties().getProperty("Ice.IPv6").Equals("1"))
            {
                multicast = "\"ff15::1\"";
            }
            else
            {
                multicast = "239.255.0.1";
            }

            {
                Ice.InitializationData initData = new Ice.InitializationData();
                initData.properties = communicator.getProperties().ice_clone_();
                initData.properties.setProperty("IceDiscovery.Lookup", "udp -h " + multicast + " --interface unknown");
                Ice.Communicator comm = Ice.Util.initialize(initData);
                test(comm.getDefaultLocator() != null);
                try
                {
                    comm.stringToProxy("controller0@control0").ice_ping();
                    test(false);
                }
                catch (Ice.LocalException)
                {
                }
                comm.destroy();
            }
            {
                Ice.InitializationData initData = new Ice.InitializationData();
                initData.properties = communicator.getProperties().ice_clone_();
                string intf = initData.properties.getProperty("IceDiscovery.Interface");
                if (!intf.Equals(""))
                {
                    intf = " --interface \"" + intf + "\"";
                }
                string port = initData.properties.getProperty("IceDiscovery.Port");
                initData.properties.setProperty("IceDiscovery.Lookup",
                                                "udp -h " + multicast + " --interface unknown:" +
                                                "udp -h " + multicast + " -p " + port + intf);
                Ice.Communicator comm = Ice.Util.initialize(initData);
                test(comm.getDefaultLocator() != null);
                comm.stringToProxy("controller0@control0").ice_ping();
                comm.destroy();
            }
        }
        output.WriteLine("ok");

        output.Write("shutting down... ");
        output.Flush();
        foreach (ControllerPrx prx in proxies)
        {
            prx.shutdown();
        }
        output.WriteLine("ok");
    }
Example #2
0
    allTestsWithDeploy(Test.TestHelper helper)
    {
        Ice.Communicator communicator = helper.communicator();
        Console.Out.Write("testing stringToProxy... ");
        Console.Out.Flush();
        Ice.ObjectPrx @base = communicator.stringToProxy("test @ TestAdapter");
        test(@base != null);
        Ice.ObjectPrx @base2 = communicator.stringToProxy("test");
        test(@base2 != null);
        Console.Out.WriteLine("ok");

        Console.Out.Write("testing checked cast... ");
        Console.Out.Flush();
        TestIntfPrx obj = TestIntfPrxHelper.checkedCast(@base);

        test(obj != null);
        test(obj.Equals(@base));
        TestIntfPrx obj2 = TestIntfPrxHelper.checkedCast(@base2);

        test(obj2 != null);
        test(obj2.Equals(@base2));
        Console.Out.WriteLine("ok");

        Console.Out.Write("pinging server... ");
        Console.Out.Flush();
        obj.ice_ping();
        obj2.ice_ping();
        Console.Out.WriteLine("ok");

        Console.Out.Write("testing encoding versioning... ");
        Console.Out.Flush();
        Ice.ObjectPrx base10 = communicator.stringToProxy("test10 @ TestAdapter10");
        test(base10 != null);
        Ice.ObjectPrx base102 = communicator.stringToProxy("test10");
        test(base102 != null);
        try
        {
            base10.ice_ping();
            test(false);
        }
        catch (Ice.NoEndpointException)
        {
        }
        try
        {
            base102.ice_ping();
            test(false);
        }
        catch (Ice.NoEndpointException)
        {
        }
        base10  = base10.ice_encodingVersion(Ice.Util.Encoding_1_0);
        base102 = base102.ice_encodingVersion(Ice.Util.Encoding_1_0);
        base10.ice_ping();
        base102.ice_ping();
        Console.Out.WriteLine("ok");

        Console.Out.Write("testing reference with unknown identity... ");
        Console.Out.Flush();
        try
        {
            communicator.stringToProxy("unknown/unknown").ice_ping();
            test(false);
        }
        catch (Ice.NotRegisteredException ex)
        {
            test(ex.kindOfObject.Equals("object"));
            test(ex.id.Equals("unknown/unknown"));
        }
        Console.Out.WriteLine("ok");

        Console.Out.Write("testing reference with unknown adapter... ");
        Console.Out.Flush();
        try
        {
            communicator.stringToProxy("test @ TestAdapterUnknown").ice_ping();
            test(false);
        }
        catch (Ice.NotRegisteredException ex)
        {
            test(ex.kindOfObject.Equals("object adapter"));
            test(ex.id.Equals("TestAdapterUnknown"));
        }
        Console.Out.WriteLine("ok");

        IceGrid.RegistryPrx registry = IceGrid.RegistryPrxHelper.checkedCast(
            communicator.stringToProxy(communicator.getDefaultLocator().ice_getIdentity().category + "/Registry"));
        test(registry != null);
        IceGrid.AdminSessionPrx session = null;
        try
        {
            session = registry.createAdminSession("foo", "bar");
        }
        catch (IceGrid.PermissionDeniedException)
        {
            test(false);
        }

        session.ice_getConnection().setACM(registry.getACMTimeout(),
                                           Ice.Util.None,
                                           Ice.ACMHeartbeat.HeartbeatAlways);

        IceGrid.AdminPrx admin = session.getAdmin();
        test(admin != null);

        try
        {
            admin.enableServer("server", false);
            admin.stopServer("server");
        }
        catch (IceGrid.ServerNotExistException)
        {
            test(false);
        }
        catch (IceGrid.ServerStopException)
        {
            test(false);
        }
        catch (IceGrid.NodeUnreachableException)
        {
            test(false);
        }

        Console.Out.Write("testing whether server is still reachable... ");
        Console.Out.Flush();
        try
        {
            obj = TestIntfPrxHelper.checkedCast(@base);
            test(false);
        }
        catch (Ice.NoEndpointException)
        {
        }
        try
        {
            obj2 = TestIntfPrxHelper.checkedCast(@base2);
            test(false);
        }
        catch (Ice.NoEndpointException)
        {
        }

        try
        {
            admin.enableServer("server", true);
        }
        catch (IceGrid.ServerNotExistException)
        {
            test(false);
        }
        catch (IceGrid.NodeUnreachableException)
        {
            test(false);
        }

        try
        {
            obj = TestIntfPrxHelper.checkedCast(@base);
        }
        catch (Ice.NoEndpointException)
        {
            test(false);
        }
        try
        {
            obj2 = TestIntfPrxHelper.checkedCast(@base2);
        }
        catch (Ice.NoEndpointException)
        {
            test(false);
        }
        Console.Out.WriteLine("ok");

        try
        {
            admin.stopServer("server");
        }
        catch (IceGrid.ServerNotExistException)
        {
            test(false);
        }
        catch (IceGrid.ServerStopException)
        {
            test(false);
        }
        catch (IceGrid.NodeUnreachableException)
        {
            test(false);
        }

        session.destroy();
    }
Example #3
0
    public static void allTests(Test.TestHelper helper)
    {
        Ice.Communicator communicator = helper.communicator();
        Console.Out.Write("testing stringToProxy... ");
        Console.Out.Flush();
        String rf = "test @ TestAdapter";

        Ice.ObjectPrx @base = communicator.stringToProxy(rf);
        test(@base != null);
        Console.Out.WriteLine("ok");

        Console.Out.Write("testing IceGrid.Locator is present... ");
        IceGrid.LocatorPrx locator = IceGrid.LocatorPrxHelper.uncheckedCast(@base);
        test(locator != null);
        Console.Out.WriteLine("ok");

        Console.Out.Write("testing checked cast... ");
        Console.Out.Flush();
        TestIntfPrx obj = TestIntfPrxHelper.checkedCast(@base);

        test(obj != null);
        test(obj.Equals(@base));
        Console.Out.WriteLine("ok");

        Console.Out.Write("pinging server... ");
        Console.Out.Flush();
        obj.ice_ping();
        Console.Out.WriteLine("ok");

        Console.Out.Write("testing locator finder... ");
        Ice.Identity finderId = new Ice.Identity();
        finderId.category = "Ice";
        finderId.name     = "LocatorFinder";
        Ice.LocatorFinderPrx finder = Ice.LocatorFinderPrxHelper.checkedCast(
            communicator.getDefaultLocator().ice_identity(finderId));
        test(finder.getLocator() != null);
        Console.Out.WriteLine("ok");

        Console.Out.Write("testing discovery... ");
        {
            // Add test well-known object
            IceGrid.RegistryPrx registry = IceGrid.RegistryPrxHelper.checkedCast(
                communicator.stringToProxy(communicator.getDefaultLocator().ice_getIdentity().category + "/Registry"));
            test(registry != null);

            try
            {
                IceGrid.AdminSessionPrx session = registry.createAdminSession("foo", "bar");
                session.getAdmin().addObjectWithType(@base, "::Test");
                session.destroy();
            }
            catch (Ice.UserException)
            {
                test(false);
            }

            //
            // Ensure the IceGrid discovery locator can discover the
            // registries and make sure locator requests are forwarded.
            //
            Ice.InitializationData initData = new Ice.InitializationData();
            initData.properties = communicator.getProperties().ice_clone_();
            initData.properties.setProperty("Ice.Default.Locator", "");
            initData.properties.setProperty("Ice.Plugin.IceLocatorDiscovery",
                                            "IceLocatorDiscovery:IceLocatorDiscovery.PluginFactory");
            initData.properties.setProperty("IceLocatorDiscovery.Port", helper.getTestPort(99).ToString());
            initData.properties.setProperty("AdapterForDiscoveryTest.AdapterId", "discoveryAdapter");
            initData.properties.setProperty("AdapterForDiscoveryTest.Endpoints", "default");

            Ice.Communicator com = Ice.Util.initialize(initData);
            test(com.getDefaultLocator() != null);
            com.stringToProxy("test @ TestAdapter").ice_ping();
            com.stringToProxy("test").ice_ping();

            test(com.getDefaultLocator().getRegistry() != null);
            test(IceGrid.LocatorPrxHelper.uncheckedCast(com.getDefaultLocator()).getLocalRegistry() != null);
            test(IceGrid.LocatorPrxHelper.uncheckedCast(com.getDefaultLocator()).getLocalQuery() != null);

            Ice.ObjectAdapter adapter = com.createObjectAdapter("AdapterForDiscoveryTest");
            adapter.activate();
            adapter.deactivate();
            com.destroy();

            //
            // Now, ensure that the IceGrid discovery locator correctly
            // handles failure to find a locator.
            //
            initData.properties.setProperty("IceLocatorDiscovery.InstanceName", "unknown");
            initData.properties.setProperty("IceLocatorDiscovery.RetryCount", "1");
            initData.properties.setProperty("IceLocatorDiscovery.Timeout", "100");
            com = Ice.Util.initialize(initData);
            test(com.getDefaultLocator() != null);
            try
            {
                com.stringToProxy("test @ TestAdapter").ice_ping();
            }
            catch (Ice.NoEndpointException)
            {
            }
            try
            {
                com.stringToProxy("test").ice_ping();
            }
            catch (Ice.NoEndpointException)
            {
            }
            test(com.getDefaultLocator().getRegistry() == null);
            test(IceGrid.LocatorPrxHelper.checkedCast(com.getDefaultLocator()) == null);
            try
            {
                IceGrid.LocatorPrxHelper.uncheckedCast(com.getDefaultLocator()).getLocalRegistry();
            }
            catch (Ice.OperationNotExistException)
            {
            }

            adapter = com.createObjectAdapter("AdapterForDiscoveryTest");
            adapter.activate();
            adapter.deactivate();

            com.destroy();

            string multicast;
            if (communicator.getProperties().getProperty("Ice.IPv6").Equals("1"))
            {
                multicast = "\"ff15::1\"";
            }
            else
            {
                multicast = "239.255.0.1";
            }

            //
            // Test invalid lookup endpoints
            //
            initData.properties = communicator.getProperties().ice_clone_();
            initData.properties.setProperty("Ice.Default.Locator", "");
            initData.properties.setProperty("Ice.Plugin.IceLocatorDiscovery",
                                            "IceLocatorDiscovery:IceLocatorDiscovery.PluginFactory");
            initData.properties.setProperty("IceLocatorDiscovery.Lookup",
                                            "udp -h " + multicast + " --interface unknown");
            com = Ice.Util.initialize(initData);
            test(com.getDefaultLocator() != null);
            try
            {
                com.stringToProxy("test @ TestAdapter").ice_ping();
                test(false);
            }
            catch (Ice.NoEndpointException)
            {
            }
            com.destroy();

            initData.properties = communicator.getProperties().ice_clone_();
            initData.properties.setProperty("Ice.Default.Locator", "");
            initData.properties.setProperty("IceLocatorDiscovery.RetryCount", "0");
            initData.properties.setProperty("Ice.Plugin.IceLocatorDiscovery",
                                            "IceLocatorDiscovery:IceLocatorDiscovery.PluginFactory");
            initData.properties.setProperty("IceLocatorDiscovery.Lookup",
                                            "udp -h " + multicast + " --interface unknown");
            com = Ice.Util.initialize(initData);
            test(com.getDefaultLocator() != null);
            try
            {
                com.stringToProxy("test @ TestAdapter").ice_ping();
                test(false);
            }
            catch (Ice.NoEndpointException)
            {
            }
            com.destroy();

            initData.properties = communicator.getProperties().ice_clone_();
            initData.properties.setProperty("Ice.Default.Locator", "");
            initData.properties.setProperty("IceLocatorDiscovery.RetryCount", "1");
            initData.properties.setProperty("Ice.Plugin.IceLocatorDiscovery",
                                            "IceLocatorDiscovery:IceLocatorDiscovery.PluginFactory");
            {
                string intf = initData.properties.getProperty("IceLocatorDiscovery.Interface");
                if (!intf.Equals(""))
                {
                    intf = " --interface \"" + intf + "\"";
                }
                string port = helper.getTestPort(99).ToString();
                initData.properties.setProperty("IceLocatorDiscovery.Lookup",
                                                "udp -h " + multicast + " --interface unknown:" +
                                                "udp -h " + multicast + " -p " + port + intf);
            }
            com = Ice.Util.initialize(initData);
            test(com.getDefaultLocator() != null);
            try
            {
                com.stringToProxy("test @ TestAdapter").ice_ping();
            }
            catch (Ice.NoEndpointException)
            {
                test(false);
            }
            com.destroy();
        }
        Console.Out.WriteLine("ok");

        Console.Out.Write("shutting down server... ");
        Console.Out.Flush();
        obj.shutdown();
        Console.Out.WriteLine("ok");
    }
Example #4
0
    public static MetricsPrx allTests(Test.TestHelper helper, CommunicatorObserverI obsv)
    {
        Ice.Communicator communicator = helper.communicator();

        string host        = helper.getTestHost();
        string port        = helper.getTestPort(0).ToString();
        string hostAndPort = host + ":" + port;
        string protocol    = helper.getTestProtocol();
        string endpoint    = protocol + " -h " + host + " -p " + port;
        string timeout     = communicator.getProperties().getPropertyWithDefault("Ice.Default.Timeout", "60000");

        MetricsPrx metrics    = MetricsPrx.Parse($"metrics:{endpoint}", communicator);
        bool       collocated = metrics.GetConnection() == null;
        var        output     = helper.getWriter();

        output.Write("testing metrics admin facet checkedCast... ");
        output.Flush();
        Ice.IObjectPrx         admin         = communicator.getAdmin();
        Ice.PropertiesAdminPrx clientProps   = PropertiesAdminPrx.CheckedCast(admin.Clone(facet: "Properties"));
        IceMX.MetricsAdminPrx  clientMetrics = IceMX.MetricsAdminPrx.CheckedCast(admin.Clone(facet: "Metrics"));
        test(clientProps != null && clientMetrics != null);

        admin = metrics.getAdmin();
        Ice.PropertiesAdminPrx serverProps   = Ice.PropertiesAdminPrx.CheckedCast(admin.Clone(facet: "Properties"));
        IceMX.MetricsAdminPrx  serverMetrics = IceMX.MetricsAdminPrx.CheckedCast(admin.Clone(facet: "Metrics"));
        test(serverProps != null && serverMetrics != null);

        UpdateCallbackI update = new UpdateCallbackI(serverProps);

        ((Ice.NativePropertiesAdmin)communicator.findAdminFacet("Properties").servant).addUpdateCallback(update.updated);

        output.WriteLine("ok");

        Dictionary <string, string> props = new Dictionary <string, string>();

        output.Write("testing group by none...");
        output.Flush();

        props.Add("IceMX.Metrics.View.GroupBy", "none");
        updateProps(clientProps, serverProps, update, props, "");
        long timestamp;
        Dictionary <string, IceMX.Metrics[]> view = clientMetrics.getMetricsView("View", out timestamp);

        if (!collocated)
        {
            test(view["Connection"].Length == 1 && view["Connection"][0].current == 1 &&
                 view["Connection"][0].total == 1);
        }
        test(view["Thread"].Length == 1 && view["Thread"][0].current == 5 && view["Thread"][0].total == 5);
        output.WriteLine("ok");

        output.Write("testing group by id...");
        output.Flush();

        props["IceMX.Metrics.View.GroupBy"] = "id";
        updateProps(clientProps, serverProps, update, props, "");

        metrics.IcePing();
        metrics.IcePing();
        metrics.Clone(connectionId: "Con1").IcePing();
        metrics.Clone(connectionId: "Con1").IcePing();
        metrics.Clone(connectionId: "Con1").IcePing();

        waitForCurrent(clientMetrics, "View", "Invocation", 0);
        waitForCurrent(serverMetrics, "View", "Dispatch", 0);

        view = clientMetrics.getMetricsView("View", out timestamp);
        test(view["Thread"].Length == 5);
        if (!collocated)
        {
            test(view["Connection"].Length == 2);
        }
        test(view["Invocation"].Length == 1);

        IceMX.InvocationMetrics invoke = (IceMX.InvocationMetrics)view["Invocation"][0];

        test(invoke.id.IndexOf("[ice_ping]") > 0 && invoke.current == 0 && invoke.total == 5);
        if (!collocated)
        {
            test(invoke.remotes.Length == 2);
            test(invoke.remotes[0].total >= 2 && invoke.remotes[1].total >= 2);
            test((invoke.remotes[0].total + invoke.remotes[1].total) == 5);
        }
        else
        {
            test(invoke.collocated.Length == 1);
            test(invoke.collocated[0].total == 5);
        }

        view = serverMetrics.getMetricsView("View", out timestamp);
        // With Ice for .NET, a new dispatching thread isn't necessarily created.
        //test(view["Thread"].Length > 5);
        if (!collocated)
        {
            test(view["Connection"].Length == 2);
        }
        test(view["Dispatch"].Length == 1);
        test(view["Dispatch"][0].current == 0 && view["Dispatch"][0].total == 5);
        test(view["Dispatch"][0].id.IndexOf("[ice_ping]") > 0);

        if (!collocated)
        {
            metrics.GetConnection().close(ConnectionClose.GracefullyWithWait);
            metrics.Clone(connectionId: "Con1").GetConnection().close(ConnectionClose.GracefullyWithWait);

            waitForCurrent(clientMetrics, "View", "Connection", 0);
            waitForCurrent(serverMetrics, "View", "Connection", 0);
        }

        clearView(clientProps, serverProps, update);

        output.WriteLine("ok");

        string type     = "";
        string isSecure = "";

        if (!collocated)
        {
            Ice.EndpointInfo endpointInfo = metrics.GetConnection().getEndpoint().getInfo();
            type     = endpointInfo.type().ToString();
            isSecure = endpointInfo.secure() ? "True" : "False";
        }

        Dictionary <string, IceMX.Metrics> map;

        if (!collocated)
        {
            output.Write("testing connection metrics... ");
            output.Flush();

            props["IceMX.Metrics.View.Map.Connection.GroupBy"] = "none";
            updateProps(clientProps, serverProps, update, props, "Connection");

            test(clientMetrics.getMetricsView("View", out timestamp)["Connection"].Length == 0);
            test(serverMetrics.getMetricsView("View", out timestamp)["Connection"].Length == 0);

            metrics.IcePing();

            IceMX.ConnectionMetrics cm1, sm1, cm2, sm2;
            cm1 = (IceMX.ConnectionMetrics)clientMetrics.getMetricsView("View", out timestamp)["Connection"][0];
            sm1 = getServerConnectionMetrics(serverMetrics, 25);

            metrics.IcePing();

            cm2 = (IceMX.ConnectionMetrics)clientMetrics.getMetricsView("View", out timestamp)["Connection"][0];
            sm2 = getServerConnectionMetrics(serverMetrics, 50);

            test(cm2.sentBytes - cm1.sentBytes == 45);         // 45 for IcePing request
            test(cm2.receivedBytes - cm1.receivedBytes == 25); // 25 bytes for IcePing response
            test(sm2.receivedBytes - sm1.receivedBytes == 45);
            test(sm2.sentBytes - sm1.sentBytes == 25);

            cm1 = cm2;
            sm1 = sm2;

            byte[] bs = new byte[0];
            metrics.opByteS(bs);

            cm2 = (IceMX.ConnectionMetrics)clientMetrics.getMetricsView("View", out timestamp)["Connection"][0];
            sm2 = getServerConnectionMetrics(serverMetrics, sm1.sentBytes + cm2.receivedBytes - cm1.receivedBytes);
            long requestSz = cm2.sentBytes - cm1.sentBytes;
            long replySz   = cm2.receivedBytes - cm1.receivedBytes;

            cm1 = cm2;
            sm1 = sm2;

            bs = new byte[456];
            metrics.opByteS(bs);

            cm2 = (IceMX.ConnectionMetrics)clientMetrics.getMetricsView("View", out timestamp)["Connection"][0];
            sm2 = getServerConnectionMetrics(serverMetrics, sm1.sentBytes + replySz);

            test(cm2.sentBytes - cm1.sentBytes == requestSz + bs.Length + 4); // 4 is for the seq variable size
            test(cm2.receivedBytes - cm1.receivedBytes == replySz);
            test(sm2.receivedBytes - sm1.receivedBytes == requestSz + bs.Length + 4);
            test(sm2.sentBytes - sm1.sentBytes == replySz);

            cm1 = cm2;
            sm1 = sm2;

            bs = new byte[1024 * 1024 * 10]; // Try with large amount of data which should be sent in several chunks
            metrics.opByteS(bs);

            cm2 = (IceMX.ConnectionMetrics)clientMetrics.getMetricsView("View", out timestamp)["Connection"][0];
            sm2 = getServerConnectionMetrics(serverMetrics, sm1.sentBytes + replySz);

            test((cm2.sentBytes - cm1.sentBytes) == (requestSz + bs.Length + 4)); // 4 is for the seq variable size
            test((cm2.receivedBytes - cm1.receivedBytes) == replySz);
            test((sm2.receivedBytes - sm1.receivedBytes) == (requestSz + bs.Length + 4));
            test((sm2.sentBytes - sm1.sentBytes) == replySz);

            props["IceMX.Metrics.View.Map.Connection.GroupBy"] = "state";
            updateProps(clientProps, serverProps, update, props, "Connection");

            map = toMap(serverMetrics.getMetricsView("View", out timestamp)["Connection"]);

            test(map["active"].current == 1);

            ControllerPrx controller = ControllerPrx.Parse($"controller:{helper.getTestEndpoint(1)}", communicator);
            controller.hold();

            map = toMap(clientMetrics.getMetricsView("View", out timestamp)["Connection"]);
            test(map["active"].current == 1);
            map = toMap(serverMetrics.getMetricsView("View", out timestamp)["Connection"]);
            test(map["holding"].current == 1);

            metrics.GetConnection().close(Ice.ConnectionClose.GracefullyWithWait);

            map = toMap(clientMetrics.getMetricsView("View", out timestamp)["Connection"]);
            test(map["closing"].current == 1);
            map = toMap(serverMetrics.getMetricsView("View", out timestamp)["Connection"]);
            test(map["holding"].current == 1);

            controller.resume();

            map = toMap(serverMetrics.getMetricsView("View", out timestamp)["Connection"]);
            test(map["holding"].current == 0);

            props["IceMX.Metrics.View.Map.Connection.GroupBy"] = "none";
            updateProps(clientProps, serverProps, update, props, "Connection");

            metrics.GetConnection().close(Ice.ConnectionClose.GracefullyWithWait);

            metrics.Clone(connectionTimeout: 500).IcePing();
            controller.hold();
            try
            {
                metrics.Clone(connectionTimeout: 500).opByteS(new byte[10000000]);
                test(false);
            }
            catch (Ice.TimeoutException)
            {
            }
            controller.resume();

            cm1 = (IceMX.ConnectionMetrics)clientMetrics.getMetricsView("View", out timestamp)["Connection"][0];
            while (true)
            {
                sm1 = (IceMX.ConnectionMetrics)serverMetrics.getMetricsView("View", out timestamp)["Connection"][0];
                if (sm1.failures >= 2)
                {
                    break;
                }
                Thread.Sleep(10);
            }
            test(cm1.failures == 2 && sm1.failures >= 2);

            checkFailure(clientMetrics, "Connection", cm1.id, "::Ice::TimeoutException", 1, output);
            checkFailure(clientMetrics, "Connection", cm1.id, "::Ice::ConnectTimeoutException", 1, output);
            checkFailure(serverMetrics, "Connection", sm1.id, "::Ice::ConnectionLostException", 0, output);

            MetricsPrx m = metrics.Clone(connectionTimeout: 500, connectionId: "Con1");
            m.IcePing();

            testAttribute(clientMetrics, clientProps, update, "Connection", "parent", "Communicator", output);
            //testAttribute(clientMetrics, clientProps, update, "Connection", "id", "");
            testAttribute(clientMetrics, clientProps, update, "Connection", "endpoint",
                          endpoint + " -t 500", output);

            testAttribute(clientMetrics, clientProps, update, "Connection", "endpointType", type, output);
            testAttribute(clientMetrics, clientProps, update, "Connection", "endpointIsDatagram", "False", output);
            testAttribute(clientMetrics, clientProps, update, "Connection", "endpointIsSecure", isSecure, output);
            testAttribute(clientMetrics, clientProps, update, "Connection", "endpointTimeout", "500", output);
            testAttribute(clientMetrics, clientProps, update, "Connection", "endpointCompress", "False", output);
            testAttribute(clientMetrics, clientProps, update, "Connection", "endpointHost", host, output);
            testAttribute(clientMetrics, clientProps, update, "Connection", "endpointPort", port, output);

            testAttribute(clientMetrics, clientProps, update, "Connection", "incoming", "False", output);
            testAttribute(clientMetrics, clientProps, update, "Connection", "adapterName", "", output);
            testAttribute(clientMetrics, clientProps, update, "Connection", "connectionId", "Con1", output);
            testAttribute(clientMetrics, clientProps, update, "Connection", "localHost", host, output);
            //testAttribute(clientMetrics, clientProps, update, "Connection", "localPort", "", output);
            testAttribute(clientMetrics, clientProps, update, "Connection", "remoteHost", host, output);
            testAttribute(clientMetrics, clientProps, update, "Connection", "remotePort", port, output);
            testAttribute(clientMetrics, clientProps, update, "Connection", "mcastHost", "", output);
            testAttribute(clientMetrics, clientProps, update, "Connection", "mcastPort", "", output);

            m.GetConnection().close(Ice.ConnectionClose.GracefullyWithWait);

            waitForCurrent(clientMetrics, "View", "Connection", 0);
            waitForCurrent(serverMetrics, "View", "Connection", 0);

            output.WriteLine("ok");

            output.Write("testing connection establishment metrics... ");
            output.Flush();

            props["IceMX.Metrics.View.Map.ConnectionEstablishment.GroupBy"] = "id";
            updateProps(clientProps, serverProps, update, props, "ConnectionEstablishment");
            test(clientMetrics.getMetricsView("View", out timestamp)["ConnectionEstablishment"].Length == 0);

            metrics.IcePing();

            test(clientMetrics.getMetricsView("View", out timestamp)["ConnectionEstablishment"].Length == 1);
            IceMX.Metrics m1 = clientMetrics.getMetricsView("View", out timestamp)["ConnectionEstablishment"][0];
            test(m1.current == 0 && m1.total == 1 && m1.id.Equals(hostAndPort));

            metrics.GetConnection().close(Ice.ConnectionClose.GracefullyWithWait);
            controller.hold();
            try
            {
                IObjectPrx.Parse($"test:tcp -h 127.0.0.1 -p {port}", communicator).Clone(connectionTimeout: 10).IcePing();
                test(false);
            }
            catch (Ice.ConnectTimeoutException)
            {
            }
            catch (Ice.LocalException)
            {
                test(false);
            }
            controller.resume();
            test(clientMetrics.getMetricsView("View", out timestamp)["ConnectionEstablishment"].Length == 1);
            m1 = clientMetrics.getMetricsView("View", out timestamp)["ConnectionEstablishment"][0];
            test(m1.id.Equals(hostAndPort) && m1.total == 3 && m1.failures == 2);

            checkFailure(clientMetrics, "ConnectionEstablishment", m1.id, "::Ice::ConnectTimeoutException", 2, output);

            System.Action c = () => { connect(metrics); };
            testAttribute(clientMetrics, clientProps, update, "ConnectionEstablishment", "parent", "Communicator", c, output);
            testAttribute(clientMetrics, clientProps, update, "ConnectionEstablishment", "id", hostAndPort, c, output);
            testAttribute(clientMetrics, clientProps, update, "ConnectionEstablishment", "endpoint",
                          endpoint + " -t " + timeout, c, output);

            testAttribute(clientMetrics, clientProps, update, "ConnectionEstablishment", "endpointType", type, c, output);
            testAttribute(clientMetrics, clientProps, update, "ConnectionEstablishment", "endpointIsDatagram", "False",
                          c, output);
            testAttribute(clientMetrics, clientProps, update, "ConnectionEstablishment", "endpointIsSecure", isSecure,
                          c, output);
            testAttribute(clientMetrics, clientProps, update, "ConnectionEstablishment", "endpointTimeout", timeout, c, output);
            testAttribute(clientMetrics, clientProps, update, "ConnectionEstablishment", "endpointCompress", "False",
                          c, output);
            testAttribute(clientMetrics, clientProps, update, "ConnectionEstablishment", "endpointHost", host, c, output);
            testAttribute(clientMetrics, clientProps, update, "ConnectionEstablishment", "endpointPort", port, c, output);

            output.WriteLine("ok");

            output.Write("testing endpoint lookup metrics... ");
            output.Flush();

            props["IceMX.Metrics.View.Map.ConnectionEstablishment.GroupBy"] = "id";
            updateProps(clientProps, serverProps, update, props, "EndpointLookup");
            test(clientMetrics.getMetricsView("View", out timestamp)["EndpointLookup"].Length == 0);

            var prx = IObjectPrx.Parse($"metrics:{protocol} -p {port} -h localhost -t 500", communicator);
            try
            {
                prx.IcePing();
                prx.GetConnection().close(ConnectionClose.GracefullyWithWait);
            }
            catch (LocalException)
            {
            }

            test(clientMetrics.getMetricsView("View", out timestamp)["EndpointLookup"].Length == 1);
            m1 = clientMetrics.getMetricsView("View", out timestamp)["EndpointLookup"][0];
            test(m1.current <= 1 && m1.total == 1);

            bool dnsException = false;
            try
            {
                IObjectPrx.Parse($"test:tcp -t 500 -h unknownfoo.zeroc.com -p {port}", communicator).IcePing();
                test(false);
            }
            catch (DNSException)
            {
                dnsException = true;
            }
            catch (LocalException)
            {
                // Some DNS servers don't fail on unknown DNS names.
            }
            test(clientMetrics.getMetricsView("View", out timestamp)["EndpointLookup"].Length == 2);
            m1 = clientMetrics.getMetricsView("View", out timestamp)["EndpointLookup"][0];
            if (!m1.id.Equals("tcp -h unknownfoo.zeroc.com -p " + port + " -t 500"))
            {
                m1 = clientMetrics.getMetricsView("View", out timestamp)["EndpointLookup"][1];
            }
            test(m1.id.Equals("tcp -h unknownfoo.zeroc.com -p " + port + " -t 500") && m1.total == 2 &&
                 (!dnsException || m1.failures == 2));
            if (dnsException)
            {
                checkFailure(clientMetrics, "EndpointLookup", m1.id, "::Ice::DNSException", 2, output);
            }

            c = () => { connect(prx); };

            testAttribute(clientMetrics, clientProps, update, "EndpointLookup", "parent", "Communicator", c, output);
            testAttribute(clientMetrics, clientProps, update, "EndpointLookup", "id",
                          prx.GetConnection().getEndpoint().ToString(), c, output);
            testAttribute(clientMetrics, clientProps, update, "EndpointLookup", "endpoint",
                          prx.GetConnection().getEndpoint().ToString(), c, output);

            testAttribute(clientMetrics, clientProps, update, "EndpointLookup", "endpointType", type, c, output);
            testAttribute(clientMetrics, clientProps, update, "EndpointLookup", "endpointIsDatagram", "False", c, output);
            testAttribute(clientMetrics, clientProps, update, "EndpointLookup", "endpointIsSecure", isSecure, c, output);
            testAttribute(clientMetrics, clientProps, update, "EndpointLookup", "endpointTimeout", "500", c, output);
            testAttribute(clientMetrics, clientProps, update, "EndpointLookup", "endpointCompress", "False", c, output);
            testAttribute(clientMetrics, clientProps, update, "EndpointLookup", "endpointHost", "localhost", c, output);
            testAttribute(clientMetrics, clientProps, update, "EndpointLookup", "endpointPort", port, c, output);

            output.WriteLine("ok");
        }
        output.Write("testing dispatch metrics... ");
        output.Flush();

        props["IceMX.Metrics.View.Map.Dispatch.GroupBy"] = "operation";
        updateProps(clientProps, serverProps, update, props, "Dispatch");
        test(serverMetrics.getMetricsView("View", out timestamp)["Dispatch"].Length == 0);

        metrics.op();
        try
        {
            metrics.opWithUserException();
            test(false);
        }
        catch (UserEx)
        {
        }
        try
        {
            metrics.opWithRequestFailedException();
            test(false);
        }
        catch (Ice.RequestFailedException)
        {
        }
        try
        {
            metrics.opWithLocalException();
            test(false);
        }
        catch (Ice.LocalException)
        {
        }
        try
        {
            metrics.opWithUnknownException();
            test(false);
        }
        catch (Ice.UnknownException)
        {
        }
        if (!collocated)
        {
            try
            {
                metrics.fail();
                test(false);
            }
            catch (Ice.ConnectionLostException)
            {
            }
        }

        map = toMap(serverMetrics.getMetricsView("View", out timestamp)["Dispatch"]);
        test(collocated ? map.Count == 5 : map.Count == 6);

        IceMX.DispatchMetrics dm1;
        dm1 = (IceMX.DispatchMetrics)map["op"];
        test(dm1.current <= 1 && dm1.total == 1 && dm1.failures == 0 && dm1.userException == 0);
        test(dm1.size == 21 && dm1.replySize == 7);

        dm1 = (IceMX.DispatchMetrics)map["opWithUserException"];
        test(dm1.current <= 1 && dm1.total == 1 && dm1.failures == 0 && dm1.userException == 1);
        test(dm1.size == 38 && dm1.replySize == 23);

        dm1 = (IceMX.DispatchMetrics)map["opWithLocalException"];
        test(dm1.current <= 1 && dm1.total == 1 && dm1.failures == 1 && dm1.userException == 0);
        checkFailure(serverMetrics, "Dispatch", dm1.id, "::Ice::SyscallException", 1, output);
        test(dm1.size == 39 && dm1.replySize > 7); // Reply contains the exception stack depending on the OS.

        dm1 = (IceMX.DispatchMetrics)map["opWithRequestFailedException"];
        test(dm1.current <= 1 && dm1.total == 1 && dm1.failures == 1 && dm1.userException == 0);
        checkFailure(serverMetrics, "Dispatch", dm1.id, "::Ice::ObjectNotExistException", 1, output);
        test(dm1.size == 47 && dm1.replySize == 40);

        dm1 = (IceMX.DispatchMetrics)map["opWithUnknownException"];
        test(dm1.current <= 1 && dm1.total == 1 && dm1.failures == 1 && dm1.userException == 0);
        checkFailure(serverMetrics, "Dispatch", dm1.id, "System.ArgumentOutOfRangeException", 1, output);
        test(dm1.size == 41 && dm1.replySize > 7); // Reply contains the exception stack depending on the OS.

        System.Action op = () => { invokeOp(metrics); };
        testAttribute(serverMetrics, serverProps, update, "Dispatch", "parent", "TestAdapter", op, output);
        testAttribute(serverMetrics, serverProps, update, "Dispatch", "id", "metrics [op]", op, output);

        if (!collocated)
        {
            testAttribute(serverMetrics, serverProps, update, "Dispatch", "endpoint",
                          endpoint + " -t 60000", op, output);
            //testAttribute(serverMetrics, serverProps, update, "Dispatch", "connection", "", op);

            testAttribute(serverMetrics, serverProps, update, "Dispatch", "endpointType", type, op, output);
            testAttribute(serverMetrics, serverProps, update, "Dispatch", "endpointIsDatagram", "False", op, output);
            testAttribute(serverMetrics, serverProps, update, "Dispatch", "endpointIsSecure", isSecure, op, output);
            testAttribute(serverMetrics, serverProps, update, "Dispatch", "endpointTimeout", "60000", op, output);
            testAttribute(serverMetrics, serverProps, update, "Dispatch", "endpointCompress", "False", op, output);
            testAttribute(serverMetrics, serverProps, update, "Dispatch", "endpointHost", host, op, output);
            testAttribute(serverMetrics, serverProps, update, "Dispatch", "endpointPort", port, op, output);

            testAttribute(serverMetrics, serverProps, update, "Dispatch", "incoming", "True", op, output);
            testAttribute(serverMetrics, serverProps, update, "Dispatch", "adapterName", "TestAdapter", op, output);
            testAttribute(serverMetrics, serverProps, update, "Dispatch", "connectionId", "", op, output);
            testAttribute(serverMetrics, serverProps, update, "Dispatch", "localHost", host, op, output);
            testAttribute(serverMetrics, serverProps, update, "Dispatch", "localPort", port, op, output);
            testAttribute(serverMetrics, serverProps, update, "Dispatch", "remoteHost", host, op, output);
            //testAttribute(serverMetrics, serverProps, update, "Dispatch", "remotePort", port, op, output);
            testAttribute(serverMetrics, serverProps, update, "Dispatch", "mcastHost", "", op, output);
            testAttribute(serverMetrics, serverProps, update, "Dispatch", "mcastPort", "", op, output);
        }

        testAttribute(serverMetrics, serverProps, update, "Dispatch", "operation", "op", op, output);
        testAttribute(serverMetrics, serverProps, update, "Dispatch", "identity", "metrics", op, output);
        testAttribute(serverMetrics, serverProps, update, "Dispatch", "facet", "", op, output);
        testAttribute(serverMetrics, serverProps, update, "Dispatch", "mode", "twoway", op, output);

        testAttribute(serverMetrics, serverProps, update, "Dispatch", "context.entry1", "test", op, output);
        testAttribute(serverMetrics, serverProps, update, "Dispatch", "context.entry2", "", op, output);
        testAttribute(serverMetrics, serverProps, update, "Dispatch", "context.entry3", "", op, output);

        output.WriteLine("ok");

        output.Write("testing invocation metrics... ");
        output.Flush();

        //
        // Tests for twoway
        //
        props["IceMX.Metrics.View.Map.Invocation.GroupBy"]                = "operation";
        props["IceMX.Metrics.View.Map.Invocation.Map.Remote.GroupBy"]     = "id";
        props["IceMX.Metrics.View.Map.Invocation.Map.Collocated.GroupBy"] = "id";
        updateProps(clientProps, serverProps, update, props, "Invocation");
        test(serverMetrics.getMetricsView("View", out timestamp)["Invocation"].Length == 0);

        metrics.op();
        metrics.opAsync().Wait();

        try
        {
            metrics.opWithUserException();
            test(false);
        }
        catch (UserEx)
        {
        }

        try
        {
            metrics.opWithUserExceptionAsync().Wait();
            test(false);
        }
        catch (System.AggregateException ex)
        {
            test(ex.InnerException is UserEx);
        }

        try
        {
            metrics.opWithRequestFailedException();
            test(false);
        }
        catch (Ice.RequestFailedException)
        {
        }

        try
        {
            metrics.opWithRequestFailedExceptionAsync().Wait();
            test(false);
        }
        catch (System.AggregateException ex)
        {
            test(ex.InnerException is Ice.RequestFailedException);
        }

        try
        {
            metrics.opWithLocalException();
            test(false);
        }
        catch (Ice.LocalException)
        {
        }
        try
        {
            metrics.opWithLocalExceptionAsync().Wait();
            test(false);
        }
        catch (System.AggregateException ex)
        {
            test(ex.InnerException is Ice.LocalException);
        }

        try
        {
            metrics.opWithUnknownException();
            test(false);
        }
        catch (Ice.UnknownException)
        {
        }

        try
        {
            metrics.opWithUnknownExceptionAsync().Wait();
            test(false);
        }
        catch (System.AggregateException ex)
        {
            test(ex.InnerException is Ice.UnknownException);
        }

        if (!collocated)
        {
            try
            {
                metrics.fail();
                test(false);
            }
            catch (Ice.ConnectionLostException)
            {
            }

            try
            {
                metrics.failAsync().Wait();
                test(false);
            }
            catch (System.AggregateException ex)
            {
                test(ex.InnerException is Ice.ConnectionLostException);
            }
        }

        map = toMap(clientMetrics.getMetricsView("View", out timestamp)["Invocation"]);
        test(map.Count == (collocated ? 5 : 6));

        IceMX.InvocationMetrics      im1;
        IceMX.ChildInvocationMetrics rim1;
        im1 = (IceMX.InvocationMetrics)map["op"];
        test(im1.current <= 1 && im1.total == 2 && im1.failures == 0 && im1.retry == 0);
        test(collocated ? im1.collocated.Length == 1 : im1.remotes.Length == 1);
        rim1 = (IceMX.ChildInvocationMetrics)(collocated ? im1.collocated[0] : im1.remotes[0]);
        test(rim1.current == 0 && rim1.total == 2 && rim1.failures == 0);
        test(rim1.size == 42 && rim1.replySize == 14);

        im1 = (IceMX.InvocationMetrics)map["opWithUserException"];
        test(im1.current <= 1 && im1.total == 2 && im1.failures == 0 && im1.retry == 0);
        test(collocated ? im1.collocated.Length == 1 : im1.remotes.Length == 1);
        rim1 = (IceMX.ChildInvocationMetrics)(collocated ? im1.collocated[0] : im1.remotes[0]);
        test(rim1.current == 0 && rim1.total == 2 && rim1.failures == 0);
        test(rim1.size == 76 && rim1.replySize == 46);
        test(im1.userException == 2);

        im1 = (IceMX.InvocationMetrics)map["opWithLocalException"];
        test(im1.current <= 1 && im1.total == 2 && im1.failures == 2 && im1.retry == 0);
        test(collocated ? im1.collocated.Length == 1 : im1.remotes.Length == 1);
        rim1 = (IceMX.ChildInvocationMetrics)(collocated ? im1.collocated[0] : im1.remotes[0]);
        test(rim1.current == 0 && rim1.total == 2 && rim1.failures == 0);
        test(rim1.size == 78 && rim1.replySize > 7);
        checkFailure(clientMetrics, "Invocation", im1.id, "::Ice::UnknownLocalException", 2, output);

        im1 = (IceMX.InvocationMetrics)map["opWithRequestFailedException"];
        test(im1.current <= 1 && im1.total == 2 && im1.failures == 2 && im1.retry == 0);
        test(collocated ? im1.collocated.Length == 1 : im1.remotes.Length == 1);
        rim1 = (IceMX.ChildInvocationMetrics)(collocated ? im1.collocated[0] : im1.remotes[0]);
        test(rim1.current == 0 && rim1.total == 2 && rim1.failures == 0);
        test(rim1.size == 94 && rim1.replySize == 80);
        checkFailure(clientMetrics, "Invocation", im1.id, "::Ice::ObjectNotExistException", 2, output);

        im1 = (IceMX.InvocationMetrics)map["opWithUnknownException"];
        test(im1.current <= 1 && im1.total == 2 && im1.failures == 2 && im1.retry == 0);
        test(collocated ? im1.collocated.Length == 1 : im1.remotes.Length == 1);
        rim1 = (IceMX.ChildInvocationMetrics)(collocated ? im1.collocated[0] : im1.remotes[0]);
        test(rim1.current == 0 && rim1.total == 2 && rim1.failures == 0);
        test(rim1.size == 82 && rim1.replySize > 7);
        checkFailure(clientMetrics, "Invocation", im1.id, "::Ice::UnknownException", 2, output);

        if (!collocated)
        {
            im1 = (IceMX.InvocationMetrics)map["fail"];
            test(im1.current <= 1 && im1.total == 2 && im1.failures == 2 && im1.retry == 2 && im1.remotes.Length == 1);
            rim1 = (IceMX.ChildInvocationMetrics)(collocated ? im1.collocated[0] : im1.remotes[0]);
            test(rim1.current == 0);
            test(rim1.total == 4);
            test(rim1.failures == 4);
            checkFailure(clientMetrics, "Invocation", im1.id, "::Ice::ConnectionLostException", 2, output);
        }

        testAttribute(clientMetrics, clientProps, update, "Invocation", "parent", "Communicator", op, output);
        testAttribute(clientMetrics, clientProps, update, "Invocation", "id", "metrics -t -e 1.1 [op]", op, output);

        testAttribute(clientMetrics, clientProps, update, "Invocation", "operation", "op", op, output);
        testAttribute(clientMetrics, clientProps, update, "Invocation", "identity", "metrics", op, output);
        testAttribute(clientMetrics, clientProps, update, "Invocation", "facet", "", op, output);
        testAttribute(clientMetrics, clientProps, update, "Invocation", "encoding", "1.1", op, output);
        testAttribute(clientMetrics, clientProps, update, "Invocation", "mode", "twoway", op, output);
        testAttribute(clientMetrics, clientProps, update, "Invocation", "proxy",
                      "metrics -t -e 1.1:" + endpoint + " -t " + timeout, op, output);

        testAttribute(clientMetrics, clientProps, update, "Invocation", "context.entry1", "test", op, output);
        testAttribute(clientMetrics, clientProps, update, "Invocation", "context.entry2", "", op, output);
        testAttribute(clientMetrics, clientProps, update, "Invocation", "context.entry3", "", op, output);

        //
        // Oneway tests
        //
        clearView(clientProps, serverProps, update);
        props["IceMX.Metrics.View.Map.Invocation.GroupBy"]            = "operation";
        props["IceMX.Metrics.View.Map.Invocation.Map.Remote.GroupBy"] = "localPort";
        updateProps(clientProps, serverProps, update, props, "Invocation");

        MetricsPrx metricsOneway = metrics.Clone(oneway: true);

        metricsOneway.op();
        metricsOneway.opAsync().Wait();

        map = toMap(clientMetrics.getMetricsView("View", out timestamp)["Invocation"]);
        test(map.Count == 1);

        im1 = (IceMX.InvocationMetrics)map["op"];
        test(im1.current <= 1 && im1.total == 2 && im1.failures == 0 && im1.retry == 0);
        test(collocated ? (im1.collocated.Length == 1) : (im1.remotes.Length == 1));
        rim1 = (IceMX.ChildInvocationMetrics)(collocated ? im1.collocated[0] : im1.remotes[0]);
        test(rim1.current <= 1 && rim1.total == 2 && rim1.failures == 0);
        test(rim1.size == 42 && rim1.replySize == 0);

        testAttribute(clientMetrics, clientProps, update, "Invocation", "mode", "oneway",
                      () => { invokeOp(metricsOneway); }, output);

        output.Write("testing metrics view enable/disable...");
        output.Flush();

        string[] disabledViews;
        props["IceMX.Metrics.View.GroupBy"]  = "none";
        props["IceMX.Metrics.View.Disabled"] = "0";
        updateProps(clientProps, serverProps, update, props, "Thread");
        test(clientMetrics.getMetricsView("View", out timestamp)["Thread"].Length != 0);
        test(clientMetrics.getMetricsViewNames(out disabledViews).Length == 1 && disabledViews.Length == 0);

        props["IceMX.Metrics.View.Disabled"] = "1";
        updateProps(clientProps, serverProps, update, props, "Thread");
        test(!clientMetrics.getMetricsView("View", out timestamp).ContainsKey("Thread"));
        test(clientMetrics.getMetricsViewNames(out disabledViews).Length == 0 && disabledViews.Length == 1);

        clientMetrics.enableMetricsView("View");
        test(clientMetrics.getMetricsView("View", out timestamp)["Thread"].Length != 0);
        test(clientMetrics.getMetricsViewNames(out disabledViews).Length == 1 && disabledViews.Length == 0);

        clientMetrics.disableMetricsView("View");
        test(!clientMetrics.getMetricsView("View", out timestamp).ContainsKey("Thread"));
        test(clientMetrics.getMetricsViewNames(out disabledViews).Length == 0 && disabledViews.Length == 1);

        try
        {
            clientMetrics.enableMetricsView("UnknownView");
        }
        catch (IceMX.UnknownMetricsView)
        {
        }

        output.WriteLine("ok");

        output.Write("testing instrumentation observer delegate... ");
        output.Flush();

        test(obsv.threadObserver.getTotal() > 0);
        if (!collocated)
        {
            test(obsv.connectionObserver.getTotal() > 0);
            test(obsv.connectionEstablishmentObserver.getTotal() > 0);
            test(obsv.endpointLookupObserver.getTotal() > 0);
            test(obsv.invocationObserver.remoteObserver.getTotal() > 0);
        }
        else
        {
            test(obsv.invocationObserver.collocatedObserver.getTotal() > 0);
        }

        test(obsv.dispatchObserver.getTotal() > 0);
        test(obsv.invocationObserver.getTotal() > 0);

        test(obsv.threadObserver.getCurrent() > 0);
        if (!collocated)
        {
            test(obsv.connectionObserver.getCurrent() > 0);
            test(obsv.connectionEstablishmentObserver.getCurrent() == 0);
            test(obsv.endpointLookupObserver.getCurrent() == 0);
            waitForObserverCurrent(obsv.invocationObserver.remoteObserver, 0);
            test(obsv.invocationObserver.remoteObserver.getCurrent() == 0);
        }
        else
        {
            waitForObserverCurrent(obsv.invocationObserver.collocatedObserver, 0);
            test(obsv.invocationObserver.collocatedObserver.getCurrent() == 0);
        }
        waitForObserverCurrent(obsv.dispatchObserver, 0);
        test(obsv.dispatchObserver.getCurrent() == 0);
        waitForObserverCurrent(obsv.invocationObserver, 0);
        test(obsv.invocationObserver.getCurrent() == 0);

        test(obsv.threadObserver.getFailedCount() == 0);
        if (!collocated)
        {
            test(obsv.connectionObserver.getFailedCount() > 0);
            test(obsv.connectionEstablishmentObserver.getFailedCount() > 0);
            test(obsv.endpointLookupObserver.getFailedCount() > 0);
            test(obsv.invocationObserver.remoteObserver.getFailedCount() > 0);
        }
        //test(obsv.dispatchObserver.getFailedCount() > 0);
        test(obsv.invocationObserver.getFailedCount() > 0);

        if (!collocated)
        {
            test(obsv.threadObserver.states > 0);
            test(obsv.connectionObserver.received > 0 && obsv.connectionObserver.sent > 0);
            test(obsv.invocationObserver.retriedCount > 0);
            test(obsv.invocationObserver.remoteObserver.replySize > 0);
        }
        else
        {
            test(obsv.invocationObserver.collocatedObserver.replySize > 0);
        }
        //test(obsv.dispatchObserver.userExceptionCount > 0);
        test(obsv.invocationObserver.userExceptionCount > 0);

        output.WriteLine("ok");
        return(metrics);
    }
Example #5
0
    public static void allTests(Test.TestHelper helper, List <int> ports)
    {
        Ice.Communicator communicator = helper.communicator();
        var output = helper.getWriter();

        output.Write("testing stringToProxy... ");
        output.Flush();
        string refString = "test";

        for (int i = 0; i < ports.Count; i++)
        {
            refString += ":" + helper.getTestEndpoint(ports[i]);
        }
        Ice.ObjectPrx basePrx = communicator.stringToProxy(refString);
        test(basePrx != null);
        output.WriteLine("ok");

        output.Write("testing checked cast... ");
        output.Flush();
        TestIntfPrx obj = TestIntfPrxHelper.checkedCast(basePrx);

        test(obj != null);
        test(obj.Equals(basePrx));
        output.WriteLine("ok");

        int  oldPid = 0;
        bool ami    = false;

        for (int i = 1, j = 0; i <= ports.Count; ++i, ++j)
        {
            if (j > 3)
            {
                j   = 0;
                ami = !ami;
            }

            if (!ami)
            {
                output.Write("testing server #" + i + "... ");
                output.Flush();
                int pid = obj.pid();
                test(pid != oldPid);
                output.WriteLine("ok");
                oldPid = pid;
            }
            else
            {
                output.Write("testing server #" + i + " with AMI... ");
                output.Flush();
                Callback cb  = new Callback();
                int      pid = -1;
                obj.begin_pid().whenCompleted(
                    (int p) =>
                {
                    pid = p;
                    cb.called();
                },
                    (Ice.Exception ex) =>
                {
                    output.WriteLine(ex.ToString());
                    test(false);
                });
                cb.check();
                test(pid != oldPid);
                output.WriteLine("ok");
                oldPid = pid;
            }

            if (j == 0)
            {
                if (!ami)
                {
                    output.Write("shutting down server #" + i + "... ");
                    output.Flush();
                    obj.shutdown();
                    output.WriteLine("ok");
                }
                else
                {
                    output.Write("shutting down server #" + i + " with AMI... ");
                    Callback cb = new Callback();
                    obj.begin_shutdown().whenCompleted(
                        () =>
                    {
                        cb.called();
                    },
                        (Ice.Exception ex) =>
                    {
                        output.WriteLine(ex.ToString());
                        test(false);
                    });
                    cb.check();
                    output.WriteLine("ok");
                }
            }
            else if (j == 1 || i + 1 > ports.Count)
            {
                if (!ami)
                {
                    output.Write("aborting server #" + i + "... ");
                    output.Flush();
                    try
                    {
                        obj.abort();
                        test(false);
                    }
                    catch (Ice.ConnectionLostException)
                    {
                        output.WriteLine("ok");
                    }
                    catch (Ice.ConnectFailedException)
                    {
                        output.WriteLine("ok");
                    }
                    catch (Ice.SocketException)
                    {
                        output.WriteLine("ok");
                    }
                }
                else
                {
                    output.Write("aborting server #" + i + " with AMI... ");
                    output.Flush();
                    Callback cb = new Callback();
                    obj.begin_abort().whenCompleted(
                        () =>
                    {
                        test(false);
                    },
                        (Ice.Exception ex) =>
                    {
                        exceptAbortI(ex, output);
                        cb.called();
                    });
                    cb.check();
                    output.WriteLine("ok");
                }
            }
            else if (j == 2 || j == 3)
            {
                if (!ami)
                {
                    output.Write("aborting server #" + i + " and #" + (i + 1) + " with idempotent call... ");
                    output.Flush();
                    try
                    {
                        obj.idempotentAbort();
                        test(false);
                    }
                    catch (Ice.ConnectionLostException)
                    {
                        output.WriteLine("ok");
                    }
                    catch (Ice.ConnectFailedException)
                    {
                        output.WriteLine("ok");
                    }
                    catch (Ice.SocketException)
                    {
                        output.WriteLine("ok");
                    }
                }
                else
                {
                    output.Write("aborting server #" + i + " and #" + (i + 1) + " with idempotent AMI call... ");
                    output.Flush();
                    Callback cb = new Callback();
                    obj.begin_idempotentAbort().whenCompleted(
                        () =>
                    {
                        test(false);
                    },
                        (Ice.Exception ex) =>
                    {
                        exceptAbortI(ex, output);
                        cb.called();
                    });
                    cb.check();
                    output.WriteLine("ok");
                }
                ++i;
            }
            else
            {
                Debug.Assert(false);
            }
        }

        output.Write("testing whether all servers are gone... ");
        output.Flush();
        try
        {
            obj.ice_ping();
            test(false);
        }
        catch (Ice.LocalException)
        {
            output.WriteLine("ok");
        }
    }
Example #6
0
    public static void allTests(Test.TestHelper helper, List <int> ports)
    {
        Ice.Communicator communicator = helper.communicator();
        var output = helper.getWriter();

        output.Write("testing stringToProxy... ");
        output.Flush();
        string refString = "test";

        for (int i = 0; i < ports.Count; i++)
        {
            refString += ":" + helper.getTestEndpoint(ports[i]);
        }
        Ice.IObjectPrx basePrx = Ice.IObjectPrx.Parse(refString, communicator);
        test(basePrx != null);
        output.WriteLine("ok");

        output.Write("testing checked cast... ");
        output.Flush();
        ITestIntfPrx obj = ITestIntfPrx.CheckedCast(basePrx);

        test(obj != null);
        test(obj.Equals(basePrx));
        output.WriteLine("ok");

        int  oldPid = 0;
        bool ami    = false;

        for (int i = 1, j = 0; i <= ports.Count; ++i, ++j)
        {
            if (j > 3)
            {
                j   = 0;
                ami = !ami;
            }

            if (!ami)
            {
                output.Write("testing server #" + i + "... ");
                output.Flush();
                int pid = obj.pid();
                test(pid != oldPid);
                output.WriteLine("ok");
                oldPid = pid;
            }
            else
            {
                output.Write("testing server #" + i + " with AMI... ");
                output.Flush();
                var pid = obj.pidAsync().Result;
                test(pid != oldPid);
                output.WriteLine("ok");
                oldPid = pid;
            }

            if (j == 0)
            {
                if (!ami)
                {
                    output.Write("shutting down server #" + i + "... ");
                    output.Flush();
                    obj.shutdown();
                    output.WriteLine("ok");
                }
                else
                {
                    output.Write("shutting down server #" + i + " with AMI... ");
                    obj.shutdownAsync().Wait();
                    output.WriteLine("ok");
                }
            }
            else if (j == 1 || i + 1 > ports.Count)
            {
                if (!ami)
                {
                    output.Write("aborting server #" + i + "... ");
                    output.Flush();
                    try
                    {
                        obj.abort();
                        test(false);
                    }
                    catch (Ice.ConnectionLostException)
                    {
                        output.WriteLine("ok");
                    }
                    catch (Ice.ConnectFailedException)
                    {
                        output.WriteLine("ok");
                    }
                    catch (Ice.SocketException)
                    {
                        output.WriteLine("ok");
                    }
                }
                else
                {
                    output.Write("aborting server #" + i + " with AMI... ");
                    output.Flush();
                    try
                    {
                        obj.abortAsync().Wait();
                        test(false);
                    }
                    catch (AggregateException ex)
                    {
                        exceptAbortI(ex.InnerException as Ice.Exception, output);
                    }
                    output.WriteLine("ok");
                }
            }
            else if (j == 2 || j == 3)
            {
                if (!ami)
                {
                    output.Write("aborting server #" + i + " and #" + (i + 1) + " with idempotent call... ");
                    output.Flush();
                    try
                    {
                        obj.idempotentAbort();
                        test(false);
                    }
                    catch (Ice.ConnectionLostException)
                    {
                        output.WriteLine("ok");
                    }
                    catch (Ice.ConnectFailedException)
                    {
                        output.WriteLine("ok");
                    }
                    catch (Ice.SocketException)
                    {
                        output.WriteLine("ok");
                    }
                }
                else
                {
                    output.Write("aborting server #" + i + " and #" + (i + 1) + " with idempotent AMI call... ");
                    output.Flush();
                    try
                    {
                        obj.idempotentAbortAsync().Wait();
                        test(false);
                    }
                    catch (AggregateException ex)
                    {
                        exceptAbortI(ex.InnerException as Ice.Exception, output);
                    }
                    output.WriteLine("ok");
                }
                ++i;
            }
            else
            {
                Debug.Assert(false);
            }
        }

        output.Write("testing whether all servers are gone... ");
        output.Flush();
        try
        {
            obj.IcePing();
            test(false);
        }
        catch (Ice.LocalException)
        {
            output.WriteLine("ok");
        }
    }
Example #7
0
    public static Test.IBackgroundPrx allTests(Test.TestHelper helper)
    {
        Communicator communicator = helper.communicator();
        var          background   = IBackgroundPrx.Parse($"background:{helper.getTestEndpoint(0)}", communicator);

        var backgroundController = IBackgroundControllerPrx.Parse("backgroundController:" + helper.getTestEndpoint(1, "tcp"), communicator);

        Configuration configuration = Configuration.getInstance();

        Console.Write("testing connect... ");
        Console.Out.Flush();
        {
            connectTests(configuration, background);
        }
        Console.Out.WriteLine("ok");

        Console.Write("testing initialization... ");
        Console.Out.Flush();
        {
            initializeTests(configuration, background, backgroundController);
        }
        Console.Out.WriteLine("ok");

        Console.Write("testing connection validation... ");
        Console.Out.Flush();
        {
            validationTests(configuration, background, backgroundController);
        }
        Console.Out.WriteLine("ok");

        Console.Write("testing read/write... ");
        Console.Out.Flush();
        {
            readWriteTests(configuration, background, backgroundController);
        }
        Console.Out.WriteLine("ok");

        Console.Write("testing locator... ");
        Console.Out.Flush();
        {
            var locator = ILocatorPrx.Parse($"locator:{helper.getTestEndpoint(0)}", communicator).Clone(
                invocationTimeout: 250);
            var obj = IObjectPrx.Parse("background@Test", communicator).Clone(locator: locator, oneway: true);

            backgroundController.pauseCall("findAdapterById");
            try
            {
                obj.IcePing();
                test(false);
            }
            catch (Ice.TimeoutException)
            {
            }
            backgroundController.resumeCall("findAdapterById");

            locator = ILocatorPrx.Parse($"locator:{helper.getTestEndpoint(0)}", communicator).Clone(locator: locator);
            locator.IcePing();

            var bg = IBackgroundPrx.Parse("background@Test", communicator).Clone(locator: locator);

            backgroundController.pauseCall("findAdapterById");
            var t1 = bg.opAsync();
            var t2 = bg.opAsync();
            test(!t1.IsCompleted);
            test(!t2.IsCompleted);
            backgroundController.resumeCall("findAdapterById");
            t1.Wait();
            t2.Wait();
            test(t1.IsCompleted);
            test(t2.IsCompleted);
        }
        Console.Out.WriteLine("ok");

        Console.Write("testing router... ");
        Console.Out.Flush();
        {
            var router = IRouterPrx.Parse($"router:{helper.getTestEndpoint(0)}", communicator).Clone(
                invocationTimeout: 250);
            var obj = IObjectPrx.Parse("background@Test", communicator).Clone(router: router, oneway: true);

            backgroundController.pauseCall("getClientProxy");
            try
            {
                obj.IcePing();
                test(false);
            }
            catch (Ice.TimeoutException)
            {
            }
            backgroundController.resumeCall("getClientProxy");

            router = IRouterPrx.Parse($"router:{helper.getTestEndpoint(0)}", communicator);
            var bg = IBackgroundPrx.Parse("background@Test", communicator).Clone(router: router);
            test(bg.Router != null);

            backgroundController.pauseCall("getClientProxy");
            var t1 = bg.opAsync();
            var t2 = bg.opAsync();
            test(!t1.IsCompleted);
            test(!t2.IsCompleted);
            backgroundController.resumeCall("getClientProxy");
            t1.Wait();
            t2.Wait();
            test(t1.IsCompleted);
            test(t2.IsCompleted);
        }
        Console.Out.WriteLine("ok");

        bool ws  = communicator.GetProperty("Ice.Default.Transport") == "test-ws";
        bool wss = communicator.GetProperty("Ice.Default.Transport") == "test-wss";

        if (!ws && !wss)
        {
            Console.Write("testing buffered transport... ");
            Console.Out.Flush();

            configuration.buffered(true);
            backgroundController.buffered(true);
            background.opAsync();
            background.GetCachedConnection() !.Close(ConnectionClose.Forcefully);
            background.opAsync();

            OpAMICallback cb      = new OpAMICallback();
            var           results = new List <Task>();
            for (int i = 0; i < 10000; ++i)
            {
                var t = background.opAsync().ContinueWith((Task p) =>
                {
                    try
                    {
                        p.Wait();
                        cb.responseNoOp();
                    }
                    catch (System.Exception ex)
                    {
                        cb.noException(ex);
                    }
                });
                results.Add(t);
                if (i % 50 == 0)
                {
                    backgroundController.holdAdapter();
                    backgroundController.resumeAdapter();
                }
                if (i % 100 == 0)
                {
                    t.Wait();
                }
            }
            Task.WaitAll(results.ToArray());
            Console.Out.WriteLine("ok");
        }

        return(background);
    }
Example #8
0
    public static TestIntfPrx allTests(Test.TestHelper helper, bool collocated)
    {
        Ice.Communicator communicator = helper.communicator();
        var output = helper.getWriter();

        output.Write("testing stringToProxy... ");
        output.Flush();
        String @ref = "Test:" + helper.getTestEndpoint(0) + " -t 2000";

        Ice.ObjectPrx @base = communicator.stringToProxy(@ref);
        test(@base != null);
        output.WriteLine("ok");

        output.Write("testing checked cast... ");
        output.Flush();
        TestIntfPrx testPrx = TestIntfPrxHelper.checkedCast(@base);

        test(testPrx != null);
        test(testPrx.Equals(@base));
        output.WriteLine("ok");

        output.Write("base... ");
        output.Flush();
        {
            try
            {
                testPrx.baseAsBase();
                test(false);
            }
            catch (Base b)
            {
                test(b.b.Equals("Base.b"));
                test(b.GetType().FullName.Equals("Test.Base"));
            }
            catch (Exception)
            {
                test(false);
            }
        }
        output.WriteLine("ok");

        output.Write("base (AMI)... ");
        output.Flush();
        {
            try
            {
                testPrx.baseAsBaseAsync().Wait();
                test(false);
            }
            catch (AggregateException ae)
            {
                try
                {
                    throw ae.InnerException;
                }
                catch (Base b)
                {
                    test(b.b.Equals("Base.b"));
                    test(b.GetType().Name.Equals("Base"));
                }
                catch (Exception)
                {
                    test(false);
                }
            }
        }
        output.WriteLine("ok");

        output.Write("slicing of unknown derived... ");
        output.Flush();
        {
            try
            {
                testPrx.unknownDerivedAsBase();
                test(false);
            }
            catch (Base b)
            {
                test(b.b.Equals("UnknownDerived.b"));
                test(b.GetType().FullName.Equals("Test.Base"));
            }
            catch (Exception)
            {
                test(false);
            }
        }
        output.WriteLine("ok");

        output.Write("slicing of unknown derived (AMI)... ");
        output.Flush();
        {
            try
            {
                testPrx.unknownDerivedAsBaseAsync().Wait();
                test(false);
            }
            catch (AggregateException ae)
            {
                try
                {
                    throw ae.InnerException;
                }
                catch (Base b)
                {
                    test(b.b.Equals("UnknownDerived.b"));
                    test(b.GetType().Name.Equals("Base"));
                }
                catch (Exception)
                {
                    test(false);
                }
            }
        }
        output.WriteLine("ok");

        output.Write("non-slicing of known derived as base... ");
        output.Flush();
        {
            try
            {
                testPrx.knownDerivedAsBase();
                test(false);
            }
            catch (KnownDerived k)
            {
                test(k.b.Equals("KnownDerived.b"));
                test(k.kd.Equals("KnownDerived.kd"));
                test(k.GetType().FullName.Equals("Test.KnownDerived"));
            }
            catch (Exception)
            {
                test(false);
            }
        }
        output.WriteLine("ok");

        output.Write("non-slicing of known derived as base (AMI)... ");
        output.Flush();
        {
            try
            {
                testPrx.knownDerivedAsBaseAsync().Wait();
                test(false);
            }
            catch (AggregateException ae)
            {
                try
                {
                    throw ae.InnerException;
                }
                catch (KnownDerived k)
                {
                    test(k.b.Equals("KnownDerived.b"));
                    test(k.kd.Equals("KnownDerived.kd"));
                    test(k.GetType().Name.Equals("KnownDerived"));
                }
                catch (Exception)
                {
                    test(false);
                }
            }
        }
        output.WriteLine("ok");

        output.Write("non-slicing of known derived as derived... ");
        output.Flush();
        {
            try
            {
                testPrx.knownDerivedAsKnownDerived();
                test(false);
            }
            catch (KnownDerived k)
            {
                test(k.b.Equals("KnownDerived.b"));
                test(k.kd.Equals("KnownDerived.kd"));
                test(k.GetType().FullName.Equals("Test.KnownDerived"));
            }
            catch (Exception)
            {
                test(false);
            }
        }
        output.WriteLine("ok");

        output.Write("non-slicing of known derived as derived (AMI)... ");
        output.Flush();
        {
            try
            {
                testPrx.knownDerivedAsKnownDerivedAsync().Wait();
                test(false);
            }
            catch (AggregateException ae)
            {
                try
                {
                    throw ae.InnerException;
                }
                catch (KnownDerived k)
                {
                    test(k.b.Equals("KnownDerived.b"));
                    test(k.kd.Equals("KnownDerived.kd"));
                    test(k.GetType().Name.Equals("KnownDerived"));
                }
                catch (Exception)
                {
                    test(false);
                }
            }
        }
        output.WriteLine("ok");

        output.Write("slicing of unknown intermediate as base... ");
        output.Flush();
        {
            try
            {
                testPrx.unknownIntermediateAsBase();
                test(false);
            }
            catch (Base b)
            {
                test(b.b.Equals("UnknownIntermediate.b"));
                test(b.GetType().FullName.Equals("Test.Base"));
            }
            catch (Exception)
            {
                test(false);
            }
        }
        output.WriteLine("ok");

        output.Write("slicing of unknown intermediate as base (AMI)... ");
        output.Flush();
        {
            try
            {
                testPrx.unknownIntermediateAsBaseAsync().Wait();
                test(false);
            }
            catch (AggregateException ae)
            {
                try
                {
                    throw ae.InnerException;
                }
                catch (Base b)
                {
                    test(b.b.Equals("UnknownIntermediate.b"));
                    test(b.GetType().Name.Equals("Base"));
                }
                catch (Exception)
                {
                    test(false);
                }
            }
        }
        output.WriteLine("ok");

        output.Write("slicing of known intermediate as base... ");
        output.Flush();
        {
            try
            {
                testPrx.knownIntermediateAsBase();
                test(false);
            }
            catch (KnownIntermediate ki)
            {
                test(ki.b.Equals("KnownIntermediate.b"));
                test(ki.ki.Equals("KnownIntermediate.ki"));
                test(ki.GetType().FullName.Equals("Test.KnownIntermediate"));
            }
            catch (Exception)
            {
                test(false);
            }
        }
        output.WriteLine("ok");

        output.Write("slicing of known intermediate as base (AMI)... ");
        output.Flush();
        {
            try
            {
                testPrx.knownIntermediateAsBaseAsync().Wait();
                test(false);
            }
            catch (AggregateException ae)
            {
                try
                {
                    throw ae.InnerException;
                }
                catch (KnownIntermediate ki)
                {
                    test(ki.b.Equals("KnownIntermediate.b"));
                    test(ki.ki.Equals("KnownIntermediate.ki"));
                    test(ki.GetType().Name.Equals("KnownIntermediate"));
                }
                catch (Exception)
                {
                    test(false);
                }
            }
        }
        output.WriteLine("ok");

        output.Write("slicing of known most derived as base... ");
        output.Flush();
        {
            try
            {
                testPrx.knownMostDerivedAsBase();
                test(false);
            }
            catch (KnownMostDerived kmd)
            {
                test(kmd.b.Equals("KnownMostDerived.b"));
                test(kmd.ki.Equals("KnownMostDerived.ki"));
                test(kmd.kmd.Equals("KnownMostDerived.kmd"));
                test(kmd.GetType().FullName.Equals("Test.KnownMostDerived"));
            }
            catch (Exception)
            {
                test(false);
            }
        }
        output.WriteLine("ok");

        output.Write("slicing of known most derived as base (AMI)... ");
        output.Flush();
        {
            try
            {
                testPrx.knownMostDerivedAsBaseAsync().Wait();
                test(false);
            }
            catch (AggregateException ae)
            {
                try
                {
                    throw ae.InnerException;
                }
                catch (KnownMostDerived kmd)
                {
                    test(kmd.b.Equals("KnownMostDerived.b"));
                    test(kmd.ki.Equals("KnownMostDerived.ki"));
                    test(kmd.kmd.Equals("KnownMostDerived.kmd"));
                    test(kmd.GetType().Name.Equals("KnownMostDerived"));
                }
                catch (Exception)
                {
                    test(false);
                }
            }
        }
        output.WriteLine("ok");

        output.Write("non-slicing of known intermediate as intermediate... ");
        output.Flush();
        {
            try
            {
                testPrx.knownIntermediateAsKnownIntermediate();
                test(false);
            }
            catch (KnownIntermediate ki)
            {
                test(ki.b.Equals("KnownIntermediate.b"));
                test(ki.ki.Equals("KnownIntermediate.ki"));
                test(ki.GetType().FullName.Equals("Test.KnownIntermediate"));
            }
            catch (Exception)
            {
                test(false);
            }
        }
        output.WriteLine("ok");

        output.Write("non-slicing of known intermediate as intermediate (AMI)... ");
        output.Flush();
        {
            try
            {
                testPrx.knownIntermediateAsKnownIntermediateAsync().Wait();
                test(false);
            }
            catch (AggregateException ae)
            {
                try
                {
                    throw ae.InnerException;
                }
                catch (KnownIntermediate ki)
                {
                    test(ki.b.Equals("KnownIntermediate.b"));
                    test(ki.ki.Equals("KnownIntermediate.ki"));
                    test(ki.GetType().Name.Equals("KnownIntermediate"));
                }
                catch (Exception)
                {
                    test(false);
                }
            }
        }
        output.WriteLine("ok");

        output.Write("non-slicing of known most derived as intermediate... ");
        output.Flush();
        {
            try
            {
                testPrx.knownMostDerivedAsKnownIntermediate();
                test(false);
            }
            catch (KnownMostDerived kmd)
            {
                test(kmd.b.Equals("KnownMostDerived.b"));
                test(kmd.ki.Equals("KnownMostDerived.ki"));
                test(kmd.kmd.Equals("KnownMostDerived.kmd"));
                test(kmd.GetType().FullName.Equals("Test.KnownMostDerived"));
            }
            catch (Exception)
            {
                test(false);
            }
        }
        output.WriteLine("ok");

        output.Write("non-slicing of known most derived as intermediate (AMI)... ");
        output.Flush();
        {
            try
            {
                testPrx.knownMostDerivedAsKnownIntermediateAsync().Wait();
                test(false);
            }
            catch (AggregateException ae)
            {
                try
                {
                    throw ae.InnerException;
                }
                catch (KnownMostDerived kmd)
                {
                    test(kmd.b.Equals("KnownMostDerived.b"));
                    test(kmd.ki.Equals("KnownMostDerived.ki"));
                    test(kmd.kmd.Equals("KnownMostDerived.kmd"));
                    test(kmd.GetType().Name.Equals("KnownMostDerived"));
                }
                catch (Exception)
                {
                    test(false);
                }
            }
        }
        output.WriteLine("ok");

        output.Write("non-slicing of known most derived as most derived... ");
        output.Flush();
        {
            try
            {
                testPrx.knownMostDerivedAsKnownMostDerived();
                test(false);
            }
            catch (KnownMostDerived kmd)
            {
                test(kmd.b.Equals("KnownMostDerived.b"));
                test(kmd.ki.Equals("KnownMostDerived.ki"));
                test(kmd.kmd.Equals("KnownMostDerived.kmd"));
                test(kmd.GetType().FullName.Equals("Test.KnownMostDerived"));
            }
            catch (Exception)
            {
                test(false);
            }
        }
        output.WriteLine("ok");

        output.Write("non-slicing of known most derived as most derived (AMI)... ");
        output.Flush();
        {
            try
            {
                testPrx.knownMostDerivedAsKnownMostDerivedAsync().Wait();
                test(false);
            }
            catch (AggregateException ae)
            {
                try
                {
                    throw ae.InnerException;
                }
                catch (KnownMostDerived kmd)
                {
                    test(kmd.b.Equals("KnownMostDerived.b"));
                    test(kmd.ki.Equals("KnownMostDerived.ki"));
                    test(kmd.kmd.Equals("KnownMostDerived.kmd"));
                    test(kmd.GetType().Name.Equals("KnownMostDerived"));
                }
                catch (Exception)
                {
                    test(false);
                }
            }
        }
        output.WriteLine("ok");

        output.Write("slicing of unknown most derived, known intermediate as base... ");
        output.Flush();
        {
            try
            {
                testPrx.unknownMostDerived1AsBase();
                test(false);
            }
            catch (KnownIntermediate ki)
            {
                test(ki.b.Equals("UnknownMostDerived1.b"));
                test(ki.ki.Equals("UnknownMostDerived1.ki"));
                test(ki.GetType().FullName.Equals("Test.KnownIntermediate"));
            }
            catch (Exception)
            {
                test(false);
            }
        }
        output.WriteLine("ok");

        output.Write("slicing of unknown most derived, known intermediate as base (AMI)... ");
        output.Flush();
        {
            try
            {
                testPrx.unknownMostDerived1AsBaseAsync().Wait();
                test(false);
            }
            catch (AggregateException ae)
            {
                try
                {
                    throw ae.InnerException;
                }
                catch (KnownIntermediate ki)
                {
                    test(ki.b.Equals("UnknownMostDerived1.b"));
                    test(ki.ki.Equals("UnknownMostDerived1.ki"));
                    test(ki.GetType().Name.Equals("KnownIntermediate"));
                }
                catch (Exception)
                {
                    test(false);
                }
            }
        }
        output.WriteLine("ok");

        output.Write("slicing of unknown most derived, known intermediate as intermediate... ");
        output.Flush();
        {
            try
            {
                testPrx.unknownMostDerived1AsKnownIntermediate();
                test(false);
            }
            catch (KnownIntermediate ki)
            {
                test(ki.b.Equals("UnknownMostDerived1.b"));
                test(ki.ki.Equals("UnknownMostDerived1.ki"));
                test(ki.GetType().FullName.Equals("Test.KnownIntermediate"));
            }
            catch (Exception)
            {
                test(false);
            }
        }
        output.WriteLine("ok");

        output.Write("slicing of unknown most derived, known intermediate as intermediate (AMI)... ");
        output.Flush();
        {
            try
            {
                testPrx.unknownMostDerived1AsKnownIntermediateAsync().Wait();
                test(false);
            }
            catch (AggregateException ae)
            {
                try
                {
                    throw ae.InnerException;
                }
                catch (KnownIntermediate ki)
                {
                    test(ki.b.Equals("UnknownMostDerived1.b"));
                    test(ki.ki.Equals("UnknownMostDerived1.ki"));
                    test(ki.GetType().Name.Equals("KnownIntermediate"));
                }
                catch (Exception)
                {
                    test(false);
                }
            }
        }
        output.WriteLine("ok");

        output.Write("slicing of unknown most derived, unknown intermediate thrown as base... ");
        output.Flush();
        {
            try
            {
                testPrx.unknownMostDerived2AsBase();
                test(false);
            }
            catch (Base b)
            {
                test(b.b.Equals("UnknownMostDerived2.b"));
                test(b.GetType().FullName.Equals("Test.Base"));
            }
            catch (Exception)
            {
                test(false);
            }
        }
        output.WriteLine("ok");

        output.Write("slicing of unknown most derived, unknown intermediate thrown as base (AMI)... ");
        output.Flush();
        {
            try
            {
                testPrx.unknownMostDerived2AsBaseAsync().Wait();
                test(false);
            }
            catch (AggregateException ae)
            {
                try
                {
                    throw ae.InnerException;
                }
                catch (Base b)
                {
                    test(b.b.Equals("UnknownMostDerived2.b"));
                    test(b.GetType().Name.Equals("Base"));
                }
                catch (Exception)
                {
                    test(false);
                }
            }
        }
        output.WriteLine("ok");

        output.Write("unknown most derived in compact format... ");
        output.Flush();
        {
            try
            {
                testPrx.unknownMostDerived2AsBaseCompact();
                test(false);
            }
            catch (Base)
            {
                //
                // For the 1.0 encoding, the unknown exception is sliced to Base.
                //
                test(testPrx.ice_getEncodingVersion().Equals(Ice.Util.Encoding_1_0));
            }
            catch (Ice.UnknownUserException)
            {
                //
                // A MarshalException is raised for the compact format because the
                // most-derived type is unknown and the exception cannot be sliced.
                //
                test(!testPrx.ice_getEncodingVersion().Equals(Ice.Util.Encoding_1_0));
            }
            catch (Ice.OperationNotExistException)
            {
            }
            catch (Exception)
            {
                test(false);
            }
        }
        output.WriteLine("ok");

        output.Write("preserved exceptions... ");
        output.Flush();
        {
            try
            {
                testPrx.unknownPreservedAsBase();
                test(false);
            }
            catch (Base ex)
            {
                if (testPrx.ice_getEncodingVersion().Equals(Ice.Util.Encoding_1_0))
                {
                    test(ex.ice_getSlicedData() == null);
                }
                else
                {
                    Ice.SlicedData slicedData = ex.ice_getSlicedData();
                    test(slicedData != null);
                    test(slicedData.slices.Length == 2);
                    test(slicedData.slices[1].typeId.Equals("::Test::SPreserved1"));
                    test(slicedData.slices[0].typeId.Equals("::Test::SPreserved2"));
                }
            }

            try
            {
                testPrx.unknownPreservedAsKnownPreserved();
                test(false);
            }
            catch (KnownPreserved ex)
            {
                test(ex.kp.Equals("preserved"));
                if (testPrx.ice_getEncodingVersion().Equals(Ice.Util.Encoding_1_0))
                {
                    test(ex.ice_getSlicedData() == null);
                }
                else
                {
                    Ice.SlicedData slicedData = ex.ice_getSlicedData();
                    test(slicedData != null);
                    test(slicedData.slices.Length == 2);
                    test(slicedData.slices[1].typeId.Equals("::Test::SPreserved1"));
                    test(slicedData.slices[0].typeId.Equals("::Test::SPreserved2"));
                }
            }

            Ice.ObjectAdapter adapter = communicator.createObjectAdapter("");
            RelayPrx          relay   = RelayPrxHelper.uncheckedCast(adapter.addWithUUID(new RelayI()));
            adapter.activate();
            testPrx.ice_getConnection().setAdapter(adapter);

            try
            {
                testPrx.relayKnownPreservedAsBase(relay);
                test(false);
            }
            catch (KnownPreservedDerived ex)
            {
                test(ex.b.Equals("base"));
                test(ex.kp.Equals("preserved"));
                test(ex.kpd.Equals("derived"));
            }
            catch (Ice.OperationNotExistException)
            {
            }
            catch (Exception)
            {
                test(false);
            }

            try
            {
                testPrx.relayKnownPreservedAsKnownPreserved(relay);
                test(false);
            }
            catch (KnownPreservedDerived ex)
            {
                test(ex.b.Equals("base"));
                test(ex.kp.Equals("preserved"));
                test(ex.kpd.Equals("derived"));
            }
            catch (Ice.OperationNotExistException)
            {
            }
            catch (Exception)
            {
                test(false);
            }

            try
            {
                testPrx.relayUnknownPreservedAsBase(relay);
                test(false);
            }
            catch (Preserved2 ex)
            {
                test(ex.b.Equals("base"));
                test(ex.kp.Equals("preserved"));
                test(ex.kpd.Equals("derived"));
                test(ex.p1.ice_id().Equals(PreservedClass.ice_staticId()));
                PreservedClass pc = ex.p1 as PreservedClass;
                test(pc.bc.Equals("bc"));
                test(pc.pc.Equals("pc"));
                test(ex.p2 == ex.p1);
            }
            catch (KnownPreservedDerived ex)
            {
                //
                // For the 1.0 encoding, the unknown exception is sliced to KnownPreserved.
                //
                test(testPrx.ice_getEncodingVersion().Equals(Ice.Util.Encoding_1_0));
                test(ex.b.Equals("base"));
                test(ex.kp.Equals("preserved"));
                test(ex.kpd.Equals("derived"));
            }
            catch (Ice.OperationNotExistException)
            {
            }
            catch (Exception)
            {
                test(false);
            }

            try
            {
                testPrx.relayUnknownPreservedAsKnownPreserved(relay);
                test(false);
            }
            catch (Preserved2 ex)
            {
                test(ex.b.Equals("base"));
                test(ex.kp.Equals("preserved"));
                test(ex.kpd.Equals("derived"));
                test(ex.p1.ice_id().Equals(PreservedClass.ice_staticId()));
                PreservedClass pc = ex.p1 as PreservedClass;
                test(pc.bc.Equals("bc"));
                test(pc.pc.Equals("pc"));
                test(ex.p2 == ex.p1);
            }
            catch (KnownPreservedDerived ex)
            {
                //
                // For the 1.0 encoding, the unknown exception is sliced to KnownPreserved.
                //
                test(testPrx.ice_getEncodingVersion().Equals(Ice.Util.Encoding_1_0));
                test(ex.b.Equals("base"));
                test(ex.kp.Equals("preserved"));
                test(ex.kpd.Equals("derived"));
            }
            catch (Ice.OperationNotExistException)
            {
            }
            catch (Exception)
            {
                test(false);
            }

            adapter.destroy();
        }
        output.WriteLine("ok");

        return(testPrx);
    }