public static Test.TimeoutPrx allTests(Ice.Communicator communicator)
#endif
{
string sref = "timeout:default -p 12010";
Ice.ObjectPrx obj = communicator.stringToProxy(sref);
test(obj != null);
Test.TimeoutPrx timeout = Test.TimeoutPrxHelper.checkedCast(obj);
test(timeout != null);
Write("testing connect timeout... ");
Flush();
{
//
// Expect ConnectTimeoutException.
//
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_timeout(100));
timeout.holdAdapter(500);
try
{
to.op();
test(false);
}
catch (Ice.ConnectTimeoutException)
{
// Expected.
}
}
{
//
// Expect success.
//
timeout.op(); // Ensure adapter is active.
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_timeout(1000));
timeout.holdAdapter(500);
try
{
to.op();
}
catch (Ice.ConnectTimeoutException)
{
test(false);
}
}
WriteLine("ok");
// The sequence needs to be large enough to fill the write/recv buffers
byte[] seq = new byte[2000000];
Write("testing connection timeout... ");
Flush();
{
//
// Expect TimeoutException.
//
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_timeout(100));
timeout.holdAdapter(500);
try
{
to.sendData(seq);
test(false);
}
catch (Ice.TimeoutException)
{
// Expected.
}
}
{
//
// Expect success.
//
timeout.op(); // Ensure adapter is active.
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_timeout(1000));
timeout.holdAdapter(500);
try
{
to.sendData(new byte[1000000]);
}
catch (Ice.TimeoutException)
{
test(false);
}
}
WriteLine("ok");
Write("testing invocation timeout... ");
Flush();
{
Ice.Connection connection = obj.ice_getConnection();
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_invocationTimeout(100));
test(connection == to.ice_getConnection());
try
{
to.sleep(750);
test(false);
}
catch (Ice.InvocationTimeoutException)
{
}
obj.ice_ping();
to = Test.TimeoutPrxHelper.checkedCast(obj.ice_invocationTimeout(500));
test(connection == to.ice_getConnection());
try
{
to.sleep(250);
}
catch (Ice.InvocationTimeoutException)
{
test(false);
}
test(connection == to.ice_getConnection());
}
{
//
// Expect InvocationTimeoutException.
//
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_invocationTimeout(100));
Callback cb = new Callback();
to.begin_sleep(750).whenCompleted(
() =>
{
test(false);
},
(Ice.Exception ex) =>
{
test(ex is Ice.InvocationTimeoutException);
cb.called();
});
cb.check();
obj.ice_ping();
}
{
//
// Expect success.
//
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_invocationTimeout(500));
Callback cb = new Callback();
to.begin_sleep(250).whenCompleted(
() =>
{
cb.called();
},
(Ice.Exception ex) =>
{
test(false);
});
cb.check();
}
{
//
// Backward compatible connection timeouts
//
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_invocationTimeout(-2).ice_timeout(100));
Ice.Connection con = null;
try
{
con = to.ice_getConnection();
to.sleep(750);
test(false);
}
catch (Ice.TimeoutException)
{
try
{
con.getInfo();
test(false);
}
catch (Ice.TimeoutException)
{
// Connection got closed as well.
}
}
obj.ice_ping();
try
{
con = to.ice_getConnection();
to.end_sleep(to.begin_sleep(750));
test(false);
}
catch (Ice.TimeoutException)
{
try
{
con.getInfo();
test(false);
}
catch (Ice.TimeoutException)
{
// Connection got closed as well.
}
}
obj.ice_ping();
}
WriteLine("ok");
Write("testing close timeout... ");
Flush();
{
Test.TimeoutPrx to = Test.TimeoutPrxHelper.checkedCast(obj.ice_timeout(100));
Ice.Connection connection = to.ice_getConnection();
timeout.holdAdapter(500);
connection.close(false);
try
{
connection.getInfo(); // getInfo() doesn't throw in the closing state.
}
catch (Ice.LocalException)
{
test(false);
}
Thread.Sleep(500);
try
{
connection.getInfo();
test(false);
}
catch (Ice.CloseConnectionException)
{
// Expected.
}
timeout.op(); // Ensure adapter is active.
}
WriteLine("ok");
Write("testing timeout overrides... ");
Flush();
{
//
// Test Ice.Override.Timeout. This property overrides all
// endpoint timeouts.
//
string[] args = new string[0];
Ice.InitializationData initData = new Ice.InitializationData();
initData.properties = communicator.getProperties().ice_clone_();
initData.properties.setProperty("Ice.Override.Timeout", "100");
Ice.Communicator comm = Ice.Util.initialize(ref args, initData);
Test.TimeoutPrx to = Test.TimeoutPrxHelper.checkedCast(comm.stringToProxy(sref));
timeout.holdAdapter(500);
try
{
to.sendData(seq);
test(false);
}
catch (Ice.TimeoutException)
{
// Expected.
}
//
// Calling ice_timeout() should have no effect.
//
timeout.op(); // Ensure adapter is active.
to = Test.TimeoutPrxHelper.checkedCast(to.ice_timeout(1000));
timeout.holdAdapter(500);
try
{
to.sendData(seq);
test(false);
}
catch (Ice.TimeoutException)
{
// Expected.
}
comm.destroy();
}
{
//
// Test Ice.Override.ConnectTimeout.
//
string[] args = new string[0];
Ice.InitializationData initData = new Ice.InitializationData();
initData.properties = communicator.getProperties().ice_clone_();
initData.properties.setProperty("Ice.Override.ConnectTimeout", "250");
Ice.Communicator comm = Ice.Util.initialize(ref args, initData);
timeout.holdAdapter(750);
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(comm.stringToProxy(sref));
try
{
to.op();
test(false);
}
catch (Ice.ConnectTimeoutException)
{
// Expected.
}
//
// Calling ice_timeout() should have no effect on the connect timeout.
//
timeout.op(); // Ensure adapter is active.
timeout.holdAdapter(750);
to = Test.TimeoutPrxHelper.uncheckedCast(to.ice_timeout(1000));
try
{
to.op();
test(false);
}
catch (Ice.ConnectTimeoutException)
{
// Expected.
}
//
// Verify that timeout set via ice_timeout() is still used for requests.
//
timeout.op(); // Ensure adapter is active.
to = Test.TimeoutPrxHelper.uncheckedCast(to.ice_timeout(100));
to.ice_getConnection(); // Establish connection.
timeout.holdAdapter(750);
try
{
to.sendData(seq);
test(false);
}
catch (Ice.TimeoutException)
{
// Expected.
}
comm.destroy();
}
{
//
// Test Ice.Override.CloseTimeout.
//
Ice.InitializationData initData = new Ice.InitializationData();
initData.properties = communicator.getProperties().ice_clone_();
initData.properties.setProperty("Ice.Override.CloseTimeout", "100");
Ice.Communicator comm = Ice.Util.initialize(initData);
comm.stringToProxy(sref).ice_getConnection();
timeout.holdAdapter(500);
long begin = System.DateTime.Now.Ticks;
comm.destroy();
test(((long)new System.TimeSpan(System.DateTime.Now.Ticks - begin).TotalMilliseconds - begin) < 400);
}
WriteLine("ok");
Write("testing invocation timeouts with collocated calls... ");
Flush();
{
communicator.getProperties().setProperty("TimeoutCollocated.AdapterId", "timeoutAdapter");
Ice.ObjectAdapter adapter = communicator.createObjectAdapter("TimeoutCollocated");
adapter.activate();
Test.TimeoutPrx proxy = Test.TimeoutPrxHelper.uncheckedCast(adapter.addWithUUID(new TimeoutI()));
proxy = (Test.TimeoutPrx)proxy.ice_invocationTimeout(100);
try
{
proxy.sleep(300);
test(false);
}
catch (Ice.InvocationTimeoutException)
{
}
try
{
proxy.end_sleep(proxy.begin_sleep(300));
test(false);
}
catch (Ice.InvocationTimeoutException)
{
}
Test.TimeoutPrx batchTimeout = (Test.TimeoutPrx)proxy.ice_batchOneway();
batchTimeout.ice_ping();
batchTimeout.ice_ping();
batchTimeout.ice_ping();
((Test.TimeoutPrx)proxy.ice_invocationTimeout(-1)).begin_sleep(300); // Keep the server thread pool busy.
try
{
batchTimeout.ice_flushBatchRequests();
test(false);
}
catch (Ice.InvocationTimeoutException)
{
}
batchTimeout.ice_ping();
batchTimeout.ice_ping();
batchTimeout.ice_ping();
((Test.TimeoutPrx)proxy.ice_invocationTimeout(-1)).begin_sleep(300); // Keep the server thread pool busy.
try
{
batchTimeout.end_ice_flushBatchRequests(batchTimeout.begin_ice_flushBatchRequests());
test(false);
}
catch (Ice.InvocationTimeoutException)
{
}
adapter.destroy();
}
WriteLine("ok");
#if SILVERLIGHT
timeout.shutdown();
#else
return(timeout);
#endif
}
public static void allTests(TestCommon.Application app)
{
Ice.Communicator communicator = app.communicator();
Write("testing proxy endpoint information... ");
Flush();
{
Ice.ObjectPrx p1 = communicator.stringToProxy(
"test -t:default -h tcphost -p 10000 -t 1200 -z --sourceAddress 10.10.10.10:" +
"udp -h udphost -p 10001 --interface eth0 --ttl 5 --sourceAddress 10.10.10.10:" +
"opaque -e 1.8 -t 100 -v ABCD");
Ice.Endpoint[] endps = p1.ice_getEndpoints();
Ice.EndpointInfo info = endps[0].getInfo();
Ice.TCPEndpointInfo tcpEndpoint = getTCPEndpointInfo(info);
test(tcpEndpoint.host.Equals("tcphost"));
test(tcpEndpoint.port == 10000);
test(tcpEndpoint.sourceAddress.Equals("10.10.10.10"));
test(tcpEndpoint.timeout == 1200);
test(tcpEndpoint.compress);
test(!tcpEndpoint.datagram());
test(tcpEndpoint.type() == Ice.TCPEndpointType.value && !tcpEndpoint.secure() ||
tcpEndpoint.type() == Ice.SSLEndpointType.value && tcpEndpoint.secure() ||
tcpEndpoint.type() == Ice.WSEndpointType.value && !tcpEndpoint.secure() ||
tcpEndpoint.type() == Ice.WSSEndpointType.value && tcpEndpoint.secure());
test(tcpEndpoint.type() == Ice.TCPEndpointType.value && info is Ice.TCPEndpointInfo ||
tcpEndpoint.type() == Ice.SSLEndpointType.value && info is IceSSL.EndpointInfo ||
tcpEndpoint.type() == Ice.WSEndpointType.value && info is Ice.WSEndpointInfo ||
tcpEndpoint.type() == Ice.WSSEndpointType.value && info is Ice.WSEndpointInfo);
Ice.UDPEndpointInfo udpEndpoint = (Ice.UDPEndpointInfo)endps[1].getInfo();
test(udpEndpoint.host.Equals("udphost"));
test(udpEndpoint.port == 10001);
test(udpEndpoint.mcastInterface.Equals("eth0"));
test(udpEndpoint.mcastTtl == 5);
test(udpEndpoint.sourceAddress.Equals("10.10.10.10"));
test(udpEndpoint.timeout == -1);
test(!udpEndpoint.compress);
test(!udpEndpoint.secure());
test(udpEndpoint.datagram());
test(udpEndpoint.type() == 3);
Ice.OpaqueEndpointInfo opaqueEndpoint = (Ice.OpaqueEndpointInfo)endps[2].getInfo();
test(opaqueEndpoint.rawBytes.Length > 0);
test(opaqueEndpoint.rawEncoding.Equals(new Ice.EncodingVersion(1, 8)));
}
WriteLine("ok");
Ice.ObjectAdapter adapter;
Write("test object adapter endpoint information... ");
Flush();
{
string host = communicator.getProperties().getPropertyAsInt("Ice.IPv6") != 0 ? "::1" : "127.0.0.1";
communicator.getProperties().setProperty("TestAdapter.Endpoints", "tcp -h \"" + host +
"\" -t 15000:udp -h \"" + host + "\"");
adapter = communicator.createObjectAdapter("TestAdapter");
Ice.Endpoint[] endpoints = adapter.getEndpoints();
test(endpoints.Length == 2);
Ice.Endpoint[] publishedEndpoints = adapter.getPublishedEndpoints();
test(IceUtilInternal.Arrays.Equals(endpoints, publishedEndpoints));
Ice.TCPEndpointInfo tcpEndpoint = getTCPEndpointInfo(endpoints[0].getInfo());
test(tcpEndpoint.type() == Ice.TCPEndpointType.value || tcpEndpoint.type() == Ice.SSLEndpointType.value ||
tcpEndpoint.type() == Ice.WSEndpointType.value || tcpEndpoint.type() == Ice.WSSEndpointType.value);
test(tcpEndpoint.host.Equals(host));
test(tcpEndpoint.port > 0);
test(tcpEndpoint.timeout == 15000);
Ice.UDPEndpointInfo udpEndpoint = (Ice.UDPEndpointInfo)endpoints[1].getInfo();
test(udpEndpoint.host.Equals(host));
test(udpEndpoint.datagram());
test(udpEndpoint.port > 0);
endpoints = new Ice.Endpoint[] { endpoints[0] };
test(endpoints.Length == 1);
adapter.setPublishedEndpoints(endpoints);
publishedEndpoints = adapter.getPublishedEndpoints();
test(IceUtilInternal.Arrays.Equals(endpoints, publishedEndpoints));
adapter.destroy();
int port = app.getTestPort(1);
communicator.getProperties().setProperty("TestAdapter.Endpoints", "default -h * -p " + port);
communicator.getProperties().setProperty("TestAdapter.PublishedEndpoints", app.getTestEndpoint(1));
adapter = communicator.createObjectAdapter("TestAdapter");
endpoints = adapter.getEndpoints();
test(endpoints.Length >= 1);
publishedEndpoints = adapter.getPublishedEndpoints();
test(publishedEndpoints.Length == 1);
foreach (Ice.Endpoint endpoint in endpoints)
{
tcpEndpoint = getTCPEndpointInfo(endpoint.getInfo());
test(tcpEndpoint.port == port);
}
tcpEndpoint = getTCPEndpointInfo(publishedEndpoints[0].getInfo());
test(tcpEndpoint.host.Equals("127.0.0.1"));
test(tcpEndpoint.port == port);
adapter.destroy();
}
WriteLine("ok");
int endpointPort = app.getTestPort(0);
Ice.ObjectPrx @base = communicator.stringToProxy("test:" +
app.getTestEndpoint(0) + ":" +
app.getTestEndpoint(0, "udp"));
TestIntfPrx testIntf = TestIntfPrxHelper.checkedCast(@base);
string defaultHost = communicator.getProperties().getProperty("Ice.Default.Host");
Write("test connection endpoint information... ");
Flush();
{
Ice.EndpointInfo info = @base.ice_getConnection().getEndpoint().getInfo();
Ice.TCPEndpointInfo tcpinfo = getTCPEndpointInfo(info);
test(tcpinfo.port == endpointPort);
test(!tcpinfo.compress);
test(tcpinfo.host.Equals(defaultHost));
Dictionary <string, string> ctx = testIntf.getEndpointInfoAsContext();
test(ctx["host"].Equals(tcpinfo.host));
test(ctx["compress"].Equals("false"));
int port = System.Int32.Parse(ctx["port"]);
test(port > 0);
info = @base.ice_datagram().ice_getConnection().getEndpoint().getInfo();
Ice.UDPEndpointInfo udp = (Ice.UDPEndpointInfo)info;
test(udp.port == endpointPort);
test(udp.host.Equals(defaultHost));
}
WriteLine("ok");
Write("testing connection information... ");
Flush();
{
Ice.Connection connection = @base.ice_getConnection();
connection.setBufferSize(1024, 2048);
Ice.ConnectionInfo info = connection.getInfo();
Ice.TCPConnectionInfo ipInfo = getTCPConnectionInfo(info);
test(!info.incoming);
test(info.adapterName.Length == 0);
test(ipInfo.remotePort == endpointPort);
test(ipInfo.localPort > 0);
if (defaultHost.Equals("127.0.0.1"))
{
test(ipInfo.localAddress.Equals(defaultHost));
test(ipInfo.remoteAddress.Equals(defaultHost));
}
test(ipInfo.rcvSize >= 1024);
test(ipInfo.sndSize >= 2048);
Dictionary <string, string> ctx = testIntf.getConnectionInfoAsContext();
test(ctx["incoming"].Equals("true"));
test(ctx["adapterName"].Equals("TestAdapter"));
test(ctx["remoteAddress"].Equals(ipInfo.localAddress));
test(ctx["localAddress"].Equals(ipInfo.remoteAddress));
test(ctx["remotePort"].Equals(ipInfo.localPort.ToString()));
test(ctx["localPort"].Equals(ipInfo.remotePort.ToString()));
if (@base.ice_getConnection().type().Equals("ws") || @base.ice_getConnection().type().Equals("wss"))
{
Dictionary <string, string> headers = ((Ice.WSConnectionInfo)info).headers;
test(headers["Upgrade"].Equals("websocket"));
test(headers["Connection"].Equals("Upgrade"));
test(headers["Sec-WebSocket-Protocol"].Equals("ice.zeroc.com"));
test(headers["Sec-WebSocket-Accept"] != null);
test(ctx["ws.Upgrade"].Equals("websocket"));
test(ctx["ws.Connection"].Equals("Upgrade"));
test(ctx["ws.Sec-WebSocket-Protocol"].Equals("ice.zeroc.com"));
test(ctx["ws.Sec-WebSocket-Version"].Equals("13"));
test(ctx["ws.Sec-WebSocket-Key"] != null);
}
connection = @base.ice_datagram().ice_getConnection();
connection.setBufferSize(2048, 1024);
Ice.UDPConnectionInfo udpInfo = (Ice.UDPConnectionInfo)connection.getInfo();
test(!udpInfo.incoming);
test(udpInfo.adapterName.Length == 0);
test(udpInfo.localPort > 0);
test(udpInfo.remotePort == endpointPort);
if (defaultHost.Equals("127.0.0.1"))
{
test(udpInfo.remoteAddress.Equals(defaultHost));
test(udpInfo.localAddress.Equals(defaultHost));
}
test(udpInfo.rcvSize >= 2048);
test(udpInfo.sndSize >= 1024);
}
WriteLine("ok");
testIntf.shutdown();
communicator.shutdown();
communicator.waitForShutdown();
}
public static Test.TimeoutPrx allTests(Ice.Communicator communicator)
#endif
{
string sref = "timeout:default -p 12010";
Ice.ObjectPrx obj = communicator.stringToProxy(sref);
test(obj != null);
Test.TimeoutPrx timeout = Test.TimeoutPrxHelper.checkedCast(obj);
test(timeout != null);
Write("testing connect timeout... ");
Flush();
{
//
// Expect ConnectTimeoutException.
//
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_timeout(500));
to.holdAdapter(750);
to.ice_getConnection().close(true); // Force a reconnect.
try
{
to.op();
test(false);
}
catch (Ice.ConnectTimeoutException)
{
// Expected.
}
}
{
//
// Expect success.
//
timeout.op(); // Ensure adapter is active.
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_timeout(2000));
to.holdAdapter(500);
to.ice_getConnection().close(true); // Force a reconnect.
try
{
to.op();
}
catch (Ice.ConnectTimeoutException)
{
test(false);
}
}
WriteLine("ok");
Write("testing read timeout... ");
Flush();
{
//
// Expect TimeoutException.
//
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_timeout(500));
try
{
to.sleep(750);
test(false);
}
catch (Ice.TimeoutException)
{
// Expected.
}
}
{
//
// Expect success.
//
timeout.op(); // Ensure adapter is active.
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_timeout(1000));
try
{
to.sleep(500);
}
catch (Ice.TimeoutException)
{
test(false);
}
}
WriteLine("ok");
Write("testing write timeout... ");
Flush();
{
//
// Expect TimeoutException.
//
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_timeout(500));
to.holdAdapter(2000);
try
{
byte[] seq = new byte[100000];
to.sendData(seq);
test(false);
}
catch (Ice.TimeoutException)
{
// Expected.
}
}
{
//
// Expect success.
//
timeout.op(); // Ensure adapter is active.
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_timeout(1000));
to.holdAdapter(500);
try
{
byte[] seq = new byte[100000];
to.sendData(seq);
}
catch (Ice.TimeoutException)
{
test(false);
}
}
WriteLine("ok");
Write("testing AMI read timeout... ");
Flush();
{
//
// Expect TimeoutException.
//
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_timeout(500));
Callback cb = new Callback();
to.begin_sleep(2000).whenCompleted(cb.responseEx, cb.exceptionEx);
cb.check();
}
{
//
// Expect success.
//
timeout.op(); // Ensure adapter is active.
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_timeout(1000));
Callback cb = new Callback();
to.begin_sleep(500).whenCompleted(cb.response, cb.exception);
cb.check();
}
WriteLine("ok");
Write("testing AMI write timeout... ");
Flush();
{
//
// Expect TimeoutException.
//
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_timeout(500));
to.holdAdapter(2000);
byte[] seq = new byte[100000];
Callback cb = new Callback();
to.begin_sendData(seq).whenCompleted(cb.responseEx, cb.exceptionEx);
cb.check();
}
{
//
// Expect success.
//
timeout.op(); // Ensure adapter is active.
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(obj.ice_timeout(1000));
to.holdAdapter(500);
byte[] seq = new byte[100000];
Callback cb = new Callback();
to.begin_sendData(seq).whenCompleted(cb.response, cb.exception);
cb.check();
}
WriteLine("ok");
Write("testing close timeout... ");
Flush();
{
Test.TimeoutPrx to = Test.TimeoutPrxHelper.checkedCast(obj.ice_timeout(250));
Ice.Connection connection = to.ice_getConnection();
timeout.holdAdapter(750);
connection.close(false);
try
{
connection.getInfo(); // getInfo() doesn't throw in the closing state.
}
catch (Ice.LocalException)
{
test(false);
}
Thread.Sleep(500);
try
{
connection.getInfo();
test(false);
}
catch (Ice.CloseConnectionException)
{
// Expected.
}
timeout.op(); // Ensure adapter is active.
}
WriteLine("ok");
Write("testing timeout overrides... ");
Flush();
{
//
// Test Ice.Override.Timeout. This property overrides all
// endpoint timeouts.
//
string[] args = new string[0];
Ice.InitializationData initData = new Ice.InitializationData();
initData.properties = communicator.getProperties().ice_clone_();
initData.properties.setProperty("Ice.Override.Timeout", "500");
Ice.Communicator comm = Ice.Util.initialize(ref args, initData);
Test.TimeoutPrx to = Test.TimeoutPrxHelper.checkedCast(comm.stringToProxy(sref));
try
{
to.sleep(750);
test(false);
}
catch (Ice.TimeoutException)
{
// Expected.
}
//
// Calling ice_timeout() should have no effect.
//
timeout.op(); // Ensure adapter is active.
to = Test.TimeoutPrxHelper.checkedCast(to.ice_timeout(1000));
try
{
to.sleep(750);
test(false);
}
catch (Ice.TimeoutException)
{
// Expected.
}
comm.destroy();
}
{
//
// Test Ice.Override.ConnectTimeout.
//
string[] args = new string[0];
Ice.InitializationData initData = new Ice.InitializationData();
initData.properties = communicator.getProperties().ice_clone_();
initData.properties.setProperty("Ice.Override.ConnectTimeout", "750");
Ice.Communicator comm = Ice.Util.initialize(ref args, initData);
timeout.holdAdapter(1000);
Test.TimeoutPrx to = Test.TimeoutPrxHelper.uncheckedCast(comm.stringToProxy(sref));
try
{
to.op();
test(false);
}
catch (Ice.ConnectTimeoutException)
{
// Expected.
}
//
// Calling ice_timeout() should have no effect on the connect timeout.
//
timeout.op(); // Ensure adapter is active.
timeout.holdAdapter(1000);
to = Test.TimeoutPrxHelper.uncheckedCast(to.ice_timeout(1250));
try
{
to.op();
test(false);
}
catch (Ice.ConnectTimeoutException)
{
// Expected.
}
//
// Verify that timeout set via ice_timeout() is still used for requests.
//
to.op(); // Force connection.
try
{
to.sleep(2000);
test(false);
}
catch (Ice.TimeoutException)
{
// Expected.
}
comm.destroy();
}
{
//
// Test Ice.Override.CloseTimeout.
//
Ice.InitializationData initData = new Ice.InitializationData();
initData.properties = communicator.getProperties().ice_clone_();
initData.properties.setProperty("Ice.Override.CloseTimeout", "200");
Ice.Communicator comm = Ice.Util.initialize(initData);
comm.stringToProxy(sref).ice_getConnection();
timeout.holdAdapter(750);
timeout.holdAdapter(750);
long begin = System.DateTime.Now.Ticks;
comm.destroy();
test(((long)new System.TimeSpan(System.DateTime.Now.Ticks - begin).TotalMilliseconds - begin) < 500);
}
WriteLine("ok");
#if SILVERLIGHT
timeout.shutdown();
#else
return(timeout);
#endif
}