public static int run(string[] args, Ice.Communicator communicator, Ice.Communicator communicator2) { setupObjectAdapter(communicator); setupObjectAdapter(communicator2); Test.RetryPrx retry = AllTests.allTests(communicator, communicator2, "retry"); retry.shutdown(); return(0); }
public override int run(string[] args) { // // Configure a second communicator for the invocation timeout // + retry test, we need to configure a large retry interval // to avoid time-sensitive failures. // Ice.InitializationData initData2 = new Ice.InitializationData(); initData2.properties = communicator().getProperties().ice_clone_(); initData2.properties.setProperty("Ice.RetryIntervals", "0 1 10000"); initData2.observer = Instrumentation.getObserver(); Ice.Communicator communicator2 = Ice.Util.initialize(initData2); communicator().createObjectAdapter("").add(new RetryI(), Ice.Util.stringToIdentity("retry")); communicator2.createObjectAdapter("").add(new RetryI(), Ice.Util.stringToIdentity("retry")); Test.RetryPrx retry = AllTests.allTests(this, communicator2, "retry"); retry.shutdown(); return(0); }
public override int run(string[] args) { // // Configure a second communicator for the invocation timeout // + retry test, we need to configure a large retry interval // to avoid time-sensitive failures. // Ice.InitializationData initData2 = new Ice.InitializationData(); initData2.properties = communicator().getProperties().ice_clone_(); initData2.properties.setProperty("Ice.RetryIntervals", "0 1 10000"); initData2.observer = Instrumentation.getObserver(); Ice.Communicator communicator2 = Ice.Util.initialize(initData2); try { Test.RetryPrx retry = AllTests.allTests(this, communicator2, "retry:" + getTestEndpoint(0)); retry.shutdown(); return(0); } finally { communicator2.destroy(); } }
allTests(TestCommon.Application app, Ice.Communicator communicator2, string rf) { Ice.Communicator communicator = app.communicator(); Write("testing stringToProxy... "); Flush(); Ice.ObjectPrx base1 = communicator.stringToProxy(rf); test(base1 != null); Ice.ObjectPrx base2 = communicator.stringToProxy(rf); test(base2 != null); WriteLine("ok"); Write("testing checked cast... "); Flush(); Test.RetryPrx retry1 = Test.RetryPrxHelper.checkedCast(base1); test(retry1 != null); test(retry1.Equals(base1)); Test.RetryPrx retry2 = Test.RetryPrxHelper.checkedCast(base2); test(retry2 != null); test(retry2.Equals(base2)); WriteLine("ok"); Write("calling regular operation with first proxy... "); Flush(); retry1.op(false); WriteLine("ok"); Instrumentation.testInvocationCount(3); Write("calling operation to kill connection with second proxy... "); Flush(); try { retry2.op(true); test(false); } catch (Ice.UnknownLocalException) { // Expected with collocation } catch (Ice.ConnectionLostException) { } Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(1); Instrumentation.testRetryCount(0); WriteLine("ok"); Write("calling regular operation with first proxy again... "); Flush(); retry1.op(false); Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(0); Instrumentation.testRetryCount(0); WriteLine("ok"); Callback cb = new Callback(); Write("calling regular AMI operation with first proxy... "); retry1.begin_op(false).whenCompleted( () => { cb.called(); }, (Ice.Exception ex) => { test(false); }); cb.check(); Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(0); Instrumentation.testRetryCount(0); WriteLine("ok"); Write("calling AMI operation to kill connection with second proxy... "); retry2.begin_op(true).whenCompleted( () => { test(false); }, (Ice.Exception ex) => { test(ex is Ice.ConnectionLostException || ex is Ice.UnknownLocalException); cb.called(); }); cb.check(); Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(1); Instrumentation.testRetryCount(0); WriteLine("ok"); Write("calling regular AMI operation with first proxy again... "); retry1.begin_op(false).whenCompleted( () => { cb.called(); }, (Ice.Exception ex) => { test(false); }); cb.check(); Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(0); Instrumentation.testRetryCount(0); WriteLine("ok"); Write("testing idempotent operation... "); test(retry1.opIdempotent(4) == 4); Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(0); Instrumentation.testRetryCount(4); test(retry1.end_opIdempotent(retry1.begin_opIdempotent(4)) == 4); Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(0); Instrumentation.testRetryCount(4); WriteLine("ok"); Write("testing non-idempotent operation... "); try { retry1.opNotIdempotent(); test(false); } catch (Ice.LocalException) { } Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(1); Instrumentation.testRetryCount(0); try { retry1.end_opNotIdempotent(retry1.begin_opNotIdempotent()); test(false); } catch (Ice.LocalException) { } Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(1); Instrumentation.testRetryCount(0); WriteLine("ok"); if (retry1.ice_getConnection() == null) { Instrumentation.testInvocationCount(1); Write("testing system exception... "); try { retry1.opSystemException(); test(false); } catch (SystemFailure) { } Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(1); Instrumentation.testRetryCount(0); try { retry1.end_opSystemException(retry1.begin_opSystemException()); test(false); } catch (SystemFailure) { } Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(1); Instrumentation.testRetryCount(0); WriteLine("ok"); } Write("testing invocation timeout and retries... "); Flush(); retry2 = Test.RetryPrxHelper.checkedCast(communicator2.stringToProxy(retry1.ToString())); try { // No more than 2 retries before timeout kicks-in ((Test.RetryPrx)retry2.ice_invocationTimeout(500)).opIdempotent(4); test(false); } catch (Ice.InvocationTimeoutException) { Instrumentation.testRetryCount(2); retry2.opIdempotent(-1); // Reset the counter Instrumentation.testRetryCount(-1); } try { // No more than 2 retries before timeout kicks-in Test.RetryPrx prx = (Test.RetryPrx)retry2.ice_invocationTimeout(500); prx.end_opIdempotent(prx.begin_opIdempotent(4)); test(false); } catch (Ice.InvocationTimeoutException) { Instrumentation.testRetryCount(2); retry2.opIdempotent(-1); // Reset the counter Instrumentation.testRetryCount(-1); } WriteLine("ok"); return(retry1); }
allTests(global::Test.TestHelper helper, Ice.Communicator communicator, Ice.Communicator communicator2, string rf) { Instrumentation.testInvocationReset(); var output = helper.getWriter(); output.Write("testing stringToProxy... "); output.Flush(); var base1 = communicator.stringToProxy(rf); test(base1 != null); var base2 = communicator.stringToProxy(rf); test(base2 != null); output.WriteLine("ok"); output.Write("testing checked cast... "); output.Flush(); Test.RetryPrx retry1 = Test.RetryPrxHelper.checkedCast(base1); test(retry1 != null); test(retry1.Equals(base1)); Test.RetryPrx retry2 = Test.RetryPrxHelper.checkedCast(base2); test(retry2 != null); test(retry2.Equals(base2)); output.WriteLine("ok"); output.Write("calling regular operation with first proxy... "); output.Flush(); retry1.op(false); output.WriteLine("ok"); Instrumentation.testInvocationCount(3); output.Write("calling operation to kill connection with second proxy... "); output.Flush(); try { retry2.op(true); test(false); } catch (Ice.UnknownLocalException) { // Expected with collocation } catch (Ice.ConnectionLostException) { } Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(1); Instrumentation.testRetryCount(0); output.WriteLine("ok"); output.Write("calling regular operation with first proxy again... "); output.Flush(); retry1.op(false); Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(0); Instrumentation.testRetryCount(0); output.WriteLine("ok"); output.Write("calling regular AMI operation with first proxy... "); retry1.opAsync(false).Wait(); Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(0); Instrumentation.testRetryCount(0); output.WriteLine("ok"); output.Write("calling AMI operation to kill connection with second proxy... "); try { retry2.opAsync(true).Wait(); test(false); } catch (System.AggregateException ex) { test(ex.InnerException is ConnectionLostException || ex.InnerException is UnknownLocalException); } Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(1); Instrumentation.testRetryCount(0); output.WriteLine("ok"); output.Write("calling regular AMI operation with first proxy again... "); retry1.opAsync(false).Wait(); Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(0); Instrumentation.testRetryCount(0); output.WriteLine("ok"); output.Write("testing idempotent operation... "); test(retry1.opIdempotent(4) == 4); Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(0); Instrumentation.testRetryCount(4); test(retry1.opIdempotentAsync(4).Result == 4); Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(0); Instrumentation.testRetryCount(4); output.WriteLine("ok"); output.Write("testing non-idempotent operation... "); try { retry1.opNotIdempotent(); test(false); } catch (Ice.LocalException) { } Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(1); Instrumentation.testRetryCount(0); try { retry1.opNotIdempotentAsync().Wait(); test(false); } catch (System.AggregateException ex) { test(ex.InnerException is LocalException); } Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(1); Instrumentation.testRetryCount(0); output.WriteLine("ok"); if (retry1.ice_getConnection() == null) { Instrumentation.testInvocationCount(1); output.Write("testing system exception... "); try { retry1.opSystemException(); test(false); } catch (SystemFailure) { } Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(1); Instrumentation.testRetryCount(0); try { retry1.opSystemExceptionAsync().Wait(); test(false); } catch (System.AggregateException ex) { test(ex.InnerException is SystemFailure); } Instrumentation.testInvocationCount(1); Instrumentation.testFailureCount(1); Instrumentation.testRetryCount(0); output.WriteLine("ok"); } { output.Write("testing invocation timeout and retries... "); output.Flush(); retry2 = Test.RetryPrxHelper.checkedCast(communicator2.stringToProxy(retry1.ToString())); try { // No more than 2 retries before timeout kicks-in ((Test.RetryPrx)retry2.ice_invocationTimeout(500)).opIdempotent(4); test(false); } catch (InvocationTimeoutException) { Instrumentation.testRetryCount(2); retry2.opIdempotent(-1); // Reset the counter Instrumentation.testRetryCount(-1); } try { // No more than 2 retries before timeout kicks-in Test.RetryPrx prx = (Test.RetryPrx)retry2.ice_invocationTimeout(500); prx.opIdempotentAsync(4).Wait(); test(false); } catch (System.AggregateException ex) { test(ex.InnerException is InvocationTimeoutException); Instrumentation.testRetryCount(2); retry2.opIdempotent(-1); // Reset the counter Instrumentation.testRetryCount(-1); } if (retry1.ice_getConnection() != null) { // The timeout might occur on connection establishment or because of the sleep. What's // important here is to make sure there are 4 retries and that no calls succeed to // ensure retries with the old connection timeout semantics work. Test.RetryPrx retryWithTimeout = (Test.RetryPrx)retry1.ice_invocationTimeout(-2).ice_timeout(200); try { retryWithTimeout.sleep(500); test(false); } catch (Ice.TimeoutException) { } Instrumentation.testRetryCount(4); } output.WriteLine("ok"); } return(retry1); }
public static int run(string[] args, Ice.Communicator communicator, Ice.Communicator communicator2) { Test.RetryPrx retry = AllTests.allTests(communicator, communicator2, "retry:default -p 12010"); retry.shutdown(); return(0); }
public static int run(string[] args, Ice.Communicator communicator) { Test.RetryPrx retry = AllTests.allTests(communicator); retry.shutdown(); return(0); }
public static Test.RetryPrx allTests(Ice.Communicator communicator) #endif { Write("testing stringToProxy... "); Flush(); string rf = "retry:default -p 12010"; Ice.ObjectPrx base1 = communicator.stringToProxy(rf); test(base1 != null); Ice.ObjectPrx base2 = communicator.stringToProxy(rf); test(base2 != null); WriteLine("ok"); Write("testing checked cast... "); Flush(); Test.RetryPrx retry1 = Test.RetryPrxHelper.checkedCast(base1); test(retry1 != null); test(retry1.Equals(base1)); Test.RetryPrx retry2 = Test.RetryPrxHelper.checkedCast(base2); test(retry2 != null); test(retry2.Equals(base2)); WriteLine("ok"); Write("calling regular operation with first proxy... "); Flush(); retry1.op(false); WriteLine("ok"); Write("calling operation to kill connection with second proxy... "); Flush(); try { retry2.op(true); test(false); } catch (Ice.ConnectionLostException) { WriteLine("ok"); } Write("calling regular operation with first proxy again... "); Flush(); retry1.op(false); WriteLine("ok"); AMIRegular cb1 = new AMIRegular(); AMIException cb2 = new AMIException(); Write("calling regular AMI operation with first proxy... "); retry1.begin_op(false).whenCompleted(cb1.response, cb1.exception); cb1.check(); WriteLine("ok"); Write("calling AMI operation to kill connection with second proxy... "); retry2.begin_op(true).whenCompleted(cb2.response, cb2.exception); cb2.check(); WriteLine("ok"); Write("calling regular AMI operation with first proxy again... "); retry1.begin_op(false).whenCompleted(cb1.response, cb1.exception); cb1.check(); WriteLine("ok"); #if SILVERLIGHT retry1.shutdown(); #else return(retry1); #endif }