public ConnectionHelper(Ice.ConnectionInfo con, Ice.Endpoint endpt, Ice.Instrumentation.ConnectionState state) : base(_attributes) { _connectionInfo = con; _endpoint = endpt; _state = state; }
getConnectionObserver(Ice.ConnectionInfo ci, Ice.Endpoint ei, Ice.Instrumentation.ConnectionState s, Ice.Instrumentation.ConnectionObserver o) { return(null); }
override public Dictionary <string, string> getConnectionInfoAsContext(Ice.Current c) { Dictionary <string, string> ctx = new Dictionary <string, string>(); Ice.ConnectionInfo info = c.con.getInfo(); ctx["adapterName"] = info.adapterName; ctx["incoming"] = info.incoming ? "true" : "false"; Ice.IPConnectionInfo ipinfo = getIPConnectionInfo(info); ctx["localAddress"] = ipinfo.localAddress; ctx["localPort"] = ipinfo.localPort.ToString(); ctx["remoteAddress"] = ipinfo.remoteAddress; ctx["remotePort"] = ipinfo.remotePort.ToString(); if (info is Ice.WSConnectionInfo) { Ice.WSConnectionInfo wsinfo = (Ice.WSConnectionInfo)info; foreach (KeyValuePair <string, string> e in wsinfo.headers) { ctx["ws." + e.Key] = e.Value; } } return(ctx); }
public RemoteInvocationHelper(Ice.ConnectionInfo con, Ice.Endpoint endpt, int requestId, int size) : base(_attributes) { _connectionInfo = con; _endpoint = endpt; _requestId = requestId; _size = size; }
private static Ice.TCPConnectionInfo getTCPConnectionInfo(Ice.ConnectionInfo info) { for (; info != null; info = info.underlying) { if (info is Ice.TCPConnectionInfo) { return(info as Ice.TCPConnectionInfo); } } return(null); }
getIPConnectionInfo() { for (Ice.ConnectionInfo p = _connectionInfo; p != null; p = p.underlying) { if (p is Ice.IPConnectionInfo) { return((Ice.IPConnectionInfo)p); } } return(null); }
getRemoteObserver(Ice.ConnectionInfo c, Ice.Endpoint e, int a, int b) { lock (this) { if (remoteObserver == null) { remoteObserver = new RemoteObserverI(); remoteObserver.reset(); } return(remoteObserver); } }
public Ice.Instrumentation.RemoteObserver getRemoteObserver(Ice.ConnectionInfo con, Ice.Endpoint endpt, int requestId, int size) { Ice.Instrumentation.RemoteObserver del = null; if (delegate_ != null) { del = delegate_.getRemoteObserver(con, endpt, requestId, size); } return(getObserver <RemoteMetrics, RemoteObserverI, Ice.Instrumentation.RemoteObserver>("Remote", new RemoteInvocationHelper(con, endpt, requestId, size), del)); }
public void AttachRemoteObserver(Ice.ConnectionInfo info, Ice.IEndpoint endpt, int requestId) { Ice.Instrumentation.IInvocationObserver?observer = GetObserver(); if (observer != null) { Debug.Assert(RequestFrame != null); ChildObserver = observer.GetRemoteObserver(info, endpt, requestId, RequestFrame.Size); if (ChildObserver != null) { ChildObserver.Attach(); } } }
public void AttachRemoteObserver(Ice.ConnectionInfo info, Ice.IEndpoint endpt, int requestId) { Ice.Instrumentation.IInvocationObserver?observer = GetObserver(); if (observer != null) { int size = Os !.Size - Protocol.headerSize - 4; ChildObserver = observer.GetRemoteObserver(info, endpt, requestId, size); if (ChildObserver != null) { ChildObserver.Attach(); } } }
getConnectionObserver(Ice.ConnectionInfo c, Ice.Endpoint e, Ice.Instrumentation.ConnectionState s, Ice.Instrumentation.ConnectionObserver old) { lock (this) { Debug.Assert(old == null || old is ConnectionObserverI); if (connectionObserver == null) { connectionObserver = new ConnectionObserverI(); connectionObserver.reset(); } return(connectionObserver); } }
override public Dictionary <string, string> getConnectionInfoAsContext(Ice.Current c) { Dictionary <string, string> ctx = new Dictionary <string, string>(); Ice.ConnectionInfo info = c.con.getInfo(); ctx["adapterName"] = info.adapterName; ctx["incoming"] = info.incoming ? "true" : "false"; Ice.IPConnectionInfo ipinfo = (Ice.IPConnectionInfo)info; ctx["localAddress"] = ipinfo.localAddress; ctx["localPort"] = ipinfo.localPort.ToString(); ctx["remoteAddress"] = ipinfo.remoteAddress; ctx["remotePort"] = ipinfo.remotePort.ToString(); return(ctx); }
public Ice.Instrumentation.ConnectionObserver getConnectionObserver(Ice.ConnectionInfo c, Ice.Endpoint e, Ice.Instrumentation.ConnectionState s, Ice.Instrumentation.ConnectionObserver obsv) { if (_connections.isEnabled()) { try { Ice.Instrumentation.ConnectionObserver del = null; ConnectionObserverI o = obsv is ConnectionObserverI ? (ConnectionObserverI)obsv : null; if (_delegate != null) { del = _delegate.getConnectionObserver(c, e, s, o != null ? o.getDelegate() : obsv); } return(_connections.getObserver(new ConnectionHelper(c, e, s), obsv, del)); } catch (System.Exception ex) { _metrics.getLogger().error("unexpected exception trying to obtain observer:\n" + ex); } } return(null); }
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(); }
getRemoteObserver(Ice.ConnectionInfo ci, Ice.Endpoint ei, int i, int j) { return(null); }