private static void initializeTests(Configuration configuration, Test.BackgroundPrx background, Test.BackgroundControllerPrx ctl) { try { background.op(); } catch (Ice.LocalException) { test(false); } background.ice_getConnection().close(false); for (int i = 0; i < 4; ++i) { if (i == 0 || i == 2) { configuration.initializeException(new Ice.SocketException()); } else { continue; } BackgroundPrx prx = (i == 1 || i == 3) ? background : (BackgroundPrx)background.ice_oneway(); try { prx.op(); test(false); } catch (Ice.SocketException) { } Ice.AsyncResult r = prx.begin_op(); test(!r.sentSynchronously()); try { prx.end_op(r); test(false); } catch (Ice.Exception) { } test(r.IsCompleted); OpAMICallback cbEx = new OpAMICallback(); r = prx.begin_op().whenCompleted(cbEx.exception); test(!r.sentSynchronously()); cbEx.checkException(true); test(r.IsCompleted); if (i == 0 || i == 2) { configuration.initializeException(null); } } // // Now run the same tests with the server side. // try { ctl.initializeException(true); background.op(); test(false); } catch (Ice.ConnectionLostException) { ctl.initializeException(false); } catch (Ice.SecurityException) { ctl.initializeException(false); } OpThread thread1 = new OpThread(background); OpThread thread2 = new OpThread(background); for (int i = 0; i < 5; i++) { try { background.ice_ping(); } catch (Ice.LocalException) { test(false); } configuration.initializeException(new Ice.SocketException()); background.ice_getCachedConnection().close(true); Thread.Sleep(10); configuration.initializeException(null); try { background.ice_ping(); } catch (Ice.LocalException) { } try { background.ice_ping(); } catch (Ice.LocalException) { test(false); } background.ice_getCachedConnection().close(true); background.ice_ping(); ctl.initializeException(true); background.ice_getCachedConnection().close(true); Thread.Sleep(10); ctl.initializeException(false); try { background.ice_ping(); } catch (Ice.LocalException) { } try { background.ice_ping(); } catch (Ice.LocalException) { test(false); } try { background.ice_getCachedConnection().close(true); background.op(); } catch (Ice.LocalException) { test(false); } } thread1.destroy(); thread2.destroy(); thread1.Join(); thread2.Join(); }
private static void connectTests(Configuration configuration, Test.BackgroundPrx background) { try { background.op(); } catch (Ice.LocalException ex) { System.Console.Out.WriteLine(ex); test(false); } background.ice_getConnection().close(false); for (int i = 0; i < 4; ++i) { if (i == 0 || i == 2) { configuration.connectorsException(new Ice.DNSException()); } else { configuration.connectException(new Ice.SocketException()); } BackgroundPrx prx = (i == 1 || i == 3) ? background : (BackgroundPrx)background.ice_oneway(); try { prx.op(); test(false); } catch (Ice.Exception) { } Ice.AsyncResult r = prx.begin_op(); test(!r.sentSynchronously()); try { prx.end_op(r); test(false); } catch (Ice.Exception) { } test(r.IsCompleted); OpAMICallback cbEx = new OpAMICallback(); r = prx.begin_op().whenCompleted(cbEx.exception); test(!r.sentSynchronously()); cbEx.checkException(true); test(r.IsCompleted); if (i == 0 || i == 2) { configuration.connectorsException(null); } else { configuration.connectException(null); } } OpThread thread1 = new OpThread(background); OpThread thread2 = new OpThread(background); for (int i = 0; i < 5; i++) { try { background.ice_ping(); } catch (Ice.LocalException) { test(false); } configuration.connectException(new Ice.SocketException()); background.ice_getCachedConnection().close(true); Thread.Sleep(10); configuration.connectException(null); try { background.ice_ping(); } catch (Ice.LocalException) { } } thread1.destroy(); thread2.destroy(); thread1.Join(); thread2.Join(); }
private static void initializeTests(Configuration configuration, BackgroundPrx background, BackgroundControllerPrx ctl) { try { background.op(); } catch (LocalException) { test(false); } background.GetConnection().close(ConnectionClose.GracefullyWithWait); for (int i = 0; i < 4; ++i) { if (i == 0 || i == 2) { configuration.initializeException(new SocketException()); } else { continue; } BackgroundPrx prx = (i == 1 || i == 3) ? background : background.Clone(oneway: true); try { prx.op(); test(false); } catch (SocketException) { } bool sentSynchronously = false; var t = prx.opAsync(progress: new Progress <bool>(value => { sentSynchronously = value; })); test(!sentSynchronously); try { t.Wait(); test(false); } catch (AggregateException ex) when(ex.InnerException is Ice.Exception) { } test(t.IsCompleted); OpAMICallback cbEx = new OpAMICallback(); t = prx.opAsync(progress: new Progress <bool>(value => { sentSynchronously = false; })); test(!sentSynchronously); try { t.Wait(); } catch (AggregateException ex) when(ex.InnerException is Ice.Exception) { cbEx.exception((Ice.Exception)ex.InnerException); } cbEx.checkException(true); test(t.IsCompleted); if (i == 0 || i == 2) { configuration.initializeException(null); } } // // Now run the same tests with the server side. // try { ctl.initializeException(true); background.op(); test(false); } catch (ConnectionLostException) { ctl.initializeException(false); } catch (SecurityException) { ctl.initializeException(false); } OpThread thread1 = new OpThread(background); OpThread thread2 = new OpThread(background); for (int i = 0; i < 5; i++) { try { background.IcePing(); } catch (LocalException) { test(false); } configuration.initializeException(new SocketException()); background.GetCachedConnection() !.close(ConnectionClose.Forcefully); Thread.Sleep(10); configuration.initializeException(null); try { background.IcePing(); } catch (LocalException) { } try { background.IcePing(); } catch (LocalException) { test(false); } background.GetCachedConnection() !.close(ConnectionClose.Forcefully); background.IcePing(); ctl.initializeException(true); background.GetCachedConnection() !.close(ConnectionClose.Forcefully); Thread.Sleep(10); ctl.initializeException(false); try { background.IcePing(); } catch (LocalException) { } try { background.IcePing(); } catch (LocalException) { test(false); } try { background.GetCachedConnection() !.close(ConnectionClose.Forcefully); background.op(); } catch (LocalException) { test(false); } } thread1.destroy(); thread2.destroy(); thread1.Join(); thread2.Join(); }
private static void connectTests(Configuration configuration, Test.BackgroundPrx background) { try { background.op(); } catch (LocalException ex) { System.Console.Out.WriteLine(ex); test(false); } background.GetConnection().close(ConnectionClose.GracefullyWithWait); for (int i = 0; i < 4; ++i) { if (i == 0 || i == 2) { configuration.connectorsException(new DNSException()); } else { configuration.connectException(new SocketException()); } BackgroundPrx prx = (i == 1 || i == 3) ? background : background.Clone(oneway: true); try { prx.op(); test(false); } catch (Ice.Exception) { } var sentSynchronously = false; var t = prx.opAsync(progress: new Progress <bool>(value => { sentSynchronously = value; })); test(!sentSynchronously); try { t.Wait(); test(false); } catch (AggregateException ex) when(ex.InnerException is Ice.Exception) { } test(t.IsCompleted); OpAMICallback cbEx = new OpAMICallback(); t = prx.opAsync(progress: new Progress <bool>(value => { sentSynchronously = value; })); test(!sentSynchronously); t.ContinueWith((Task p) => { try { p.Wait(); } catch (AggregateException ex) when(ex.InnerException is Ice.Exception) { cbEx.exception((Ice.Exception)ex.InnerException); } }); cbEx.checkException(true); test(t.IsCompleted); if (i == 0 || i == 2) { configuration.connectorsException(null); } else { configuration.connectException(null); } } OpThread thread1 = new OpThread(background); OpThread thread2 = new OpThread(background); try { for (int i = 0; i < 5; i++) { try { background.IcePing(); } catch (LocalException) { test(false); } configuration.connectException(new SocketException()); background.GetCachedConnection() !.close(ConnectionClose.Forcefully); Thread.Sleep(10); configuration.connectException(null); try { background.IcePing(); } catch (LocalException) { } } } catch (System.Exception ex) { Console.Out.WriteLine(ex); test(false); } finally { thread1.destroy(); thread2.destroy(); thread1.Join(); thread2.Join(); } }
private static void initializeTests(Configuration configuration, Test.BackgroundPrx background, Test.BackgroundControllerPrx ctl) { try { background.op(); } catch(Ice.LocalException) { test(false); } background.ice_getConnection().close(false); for(int i = 0; i < 4; ++i) { if(i == 0 || i == 2) { configuration.initializeException(new Ice.SocketException()); } else { continue; } BackgroundPrx prx = (i == 1 || i == 3) ? background : (BackgroundPrx)background.ice_oneway(); try { prx.op(); test(false); } catch(Ice.SocketException) { } Ice.AsyncResult r = prx.begin_op(); test(!r.sentSynchronously()); try { prx.end_op(r); test(false); } catch(Ice.Exception) { } test(r.IsCompleted); OpAMICallback cbEx = new OpAMICallback(); r = prx.begin_op().whenCompleted(cbEx.exception); test(!r.sentSynchronously()); cbEx.checkException(true); test(r.IsCompleted); if(i == 0 || i == 2) { configuration.initializeException(null); } } // // Now run the same tests with the server side. // try { ctl.initializeException(true); background.op(); test(false); } catch(Ice.ConnectionLostException) { ctl.initializeException(false); } catch(Ice.SecurityException) { ctl.initializeException(false); } OpThread thread1 = new OpThread(background); OpThread thread2 = new OpThread(background); for(int i = 0; i < 5; i++) { try { background.ice_ping(); } catch(Ice.LocalException) { test(false); } configuration.initializeException(new Ice.SocketException()); background.ice_getCachedConnection().close(true); Thread.Sleep(10); configuration.initializeException(null); try { background.ice_ping(); } catch(Ice.LocalException) { } try { background.ice_ping(); } catch(Ice.LocalException) { test(false); } background.ice_getCachedConnection().close(true); background.ice_ping(); ctl.initializeException(true); background.ice_getCachedConnection().close(true); Thread.Sleep(10); ctl.initializeException(false); try { background.ice_ping(); } catch(Ice.LocalException) { } try { background.ice_ping(); } catch(Ice.LocalException) { test(false); } try { background.ice_getCachedConnection().close(true); background.op(); } catch(Ice.LocalException) { test(false); } } thread1.destroy(); thread2.destroy(); thread1.Join(); thread2.Join(); }
private static void connectTests(Configuration configuration, Test.BackgroundPrx background) { try { background.op(); } catch(Ice.LocalException ex) { System.Console.Out.WriteLine(ex); test(false); } background.ice_getConnection().close(false); for(int i = 0; i < 4; ++i) { if(i == 0 || i == 2) { configuration.connectorsException(new Ice.DNSException()); } else { configuration.connectException(new Ice.SocketException()); } BackgroundPrx prx = (i == 1 || i == 3) ? background : (BackgroundPrx)background.ice_oneway(); try { prx.op(); test(false); } catch(Ice.Exception) { } Ice.AsyncResult r = prx.begin_op(); test(!r.sentSynchronously()); try { prx.end_op(r); test(false); } catch(Ice.Exception) { } test(r.IsCompleted); OpAMICallback cbEx = new OpAMICallback(); r = prx.begin_op().whenCompleted(cbEx.exception); test(!r.sentSynchronously()); cbEx.checkException(true); test(r.IsCompleted); if(i == 0 || i == 2) { configuration.connectorsException(null); } else { configuration.connectException(null); } } OpThread thread1 = new OpThread(background); OpThread thread2 = new OpThread(background); for(int i = 0; i < 5; i++) { try { background.ice_ping(); } catch(Ice.LocalException) { test(false); } configuration.connectException(new Ice.SocketException()); background.ice_getCachedConnection().close(true); Thread.Sleep(10); configuration.connectException(null); try { background.ice_ping(); } catch(Ice.LocalException) { } } thread1.destroy(); thread2.destroy(); thread1.Join(); thread2.Join(); }