Esempio n. 1
0
        public void IPv4TlsLoopbackSendReceiveTest()
        {
            CancellationTokenSource     cancelServer = new CancellationTokenSource();
            TaskCompletionSource <bool> testComplete = new TaskCompletionSource <bool>();

            Assert.True(File.Exists(@"certs\localhost.pfx"), "The TLS transport channel test was missing the localhost.pfx certificate file.");

            var serverCertificate = new X509Certificate2(@"certs\localhost.pfx", "");
            var verifyCert        = serverCertificate.Verify();

            logger.LogDebug("Server Certificate loaded from file, Subject=" + serverCertificate.Subject + ", valid=" + verifyCert + ".");

            var serverChannel = new SIPTLSChannel(serverCertificate, IPAddress.Loopback, 8060);

            serverChannel.DisableLocalTCPSocketsCheck = true;
            var clientChannel = new SIPTLSChannel(serverCertificate, IPAddress.Loopback, 8061);

            clientChannel.DisableLocalTCPSocketsCheck = true;

            var serverTask = Task.Run(() => { RunServer(serverChannel, cancelServer); });
            var clientTask = Task.Run(async() => { await RunClient(clientChannel, serverChannel.GetContactURI(SIPSchemesEnum.sips, IPAddress.Loopback), testComplete); });

            Task.WhenAny(new Task[] { serverTask, clientTask, Task.Delay(TRANSPORT_TEST_TIMEOUT) }).Wait();

            if (testComplete.Task.IsCompleted == false)
            {
                // The client did not set the completed signal. This means the delay task must have completed and hence the test failed.
                testComplete.SetResult(false);
            }

            Assert.True(testComplete.Task.Result);

            cancelServer.Cancel();
        }
Esempio n. 2
0
        public void IPv6TlsLoopbackSendReceiveTest()
        {
            logger.LogDebug("--> " + System.Reflection.MethodBase.GetCurrentMethod().Name);
            logger.BeginScope(System.Reflection.MethodBase.GetCurrentMethod().Name);

            if (!Socket.OSSupportsIPv6)
            {
                logger.LogDebug("Test skipped as OS does not support IPv6.");
            }
            else if (RuntimeInformation.IsOSPlatform(OSPlatform.OSX))
            {
                logger.LogDebug("Test skipped as MacOS is not able to load certificates from a .pfx file pre .NET Core 5.0.");
            }
            else
            {
                ManualResetEventSlim        serverReadyEvent = new ManualResetEventSlim(false);
                CancellationTokenSource     cancelServer     = new CancellationTokenSource();
                TaskCompletionSource <bool> testComplete     = new TaskCompletionSource <bool>(TaskCreationOptions.RunContinuationsAsynchronously);

                Assert.True(File.Exists(@"certs/localhost.pfx"), "The TLS transport channel test was missing the localhost.pfx certificate file.");

                var serverCertificate = new X509Certificate2(@"certs/localhost.pfx", "");
                var verifyCert        = serverCertificate.Verify();
                logger.LogDebug("Server Certificate loaded from file, Subject=" + serverCertificate.Subject + ", valid=" + verifyCert + ".");

                var serverChannel = new SIPTLSChannel(serverCertificate, IPAddress.IPv6Loopback, 0);
                serverChannel.DisableLocalTCPSocketsCheck = true;
                var clientChannel = new SIPTLSChannel(new IPEndPoint(IPAddress.IPv6Loopback, 0));
                clientChannel.DisableLocalTCPSocketsCheck = true;

                var serverTask = Task.Run(() => { RunServer(serverChannel, cancelServer, serverReadyEvent); });
                var clientTask = Task.Run(async() =>
                {
#pragma warning disable RCS1090 // Add call to 'ConfigureAwait' (or vice versa).
                    await RunClient(
                        clientChannel,
                        serverChannel.GetContactURI(SIPSchemesEnum.sips, new SIPEndPoint(SIPProtocolsEnum.tls, new IPEndPoint(IPAddress.IPv6Loopback, 0))),
                        testComplete,
                        cancelServer,
                        serverReadyEvent);
#pragma warning restore RCS1090 // Add call to 'ConfigureAwait' (or vice versa).
                });

                if (!Task.WhenAny(new Task[] { serverTask, clientTask }).Wait(TRANSPORT_TEST_TIMEOUT))
                {
                    logger.LogWarning($"Tasks timed out");
                }

                if (testComplete.Task.IsCompleted == false)
                {
                    // The client did not set the completed signal. This means the delay task must have completed and hence the test failed.
                    testComplete.SetResult(false);
                }

                Assert.True(testComplete.Task.Result);

                cancelServer.Cancel();
            }
        }
        public void IPv4TlsLoopbackSendReceiveTest()
        {
            logger.LogDebug("--> " + System.Reflection.MethodBase.GetCurrentMethod().Name);
            logger.BeginScope(System.Reflection.MethodBase.GetCurrentMethod().Name);

            ManualResetEventSlim        serverReadyEvent = new ManualResetEventSlim(false);
            CancellationTokenSource     cancelServer     = new CancellationTokenSource();
            TaskCompletionSource <bool> testComplete     = new TaskCompletionSource <bool>();

            Assert.True(File.Exists(@"certs/localhost.pfx"), "The TLS transport channel test was missing the localhost.pfx certificate file.");

            var serverCertificate = new X509Certificate2(@"certs/localhost.pfx", "");
            var verifyCert        = serverCertificate.Verify();

            logger.LogDebug("Server Certificate loaded from file, Subject=" + serverCertificate.Subject + ", valid=" + verifyCert + ".");

            var serverChannel = new SIPTLSChannel(serverCertificate, IPAddress.Loopback, 0);

            serverChannel.DisableLocalTCPSocketsCheck = true;
            var clientChannel = new SIPTLSChannel(serverCertificate, IPAddress.Loopback, 0);

            clientChannel.DisableLocalTCPSocketsCheck = true;

            var serverTask = Task.Run(() => { RunServer(serverChannel, cancelServer, serverReadyEvent); });
            var clientTask = Task.Run(async() => { await RunClient(
                                                       clientChannel,
                                                       serverChannel.GetContactURI(SIPSchemesEnum.sips, new SIPEndPoint(SIPProtocolsEnum.tls, new IPEndPoint(IPAddress.Loopback, 0))),
                                                       testComplete,
                                                       cancelServer,
                                                       serverReadyEvent); });

            serverReadyEvent.Wait();
            if (!Task.WhenAny(new Task[] { serverTask, clientTask }).Wait(TRANSPORT_TEST_TIMEOUT))
            {
                logger.LogWarning($"Tasks timed out");
            }

            if (testComplete.Task.IsCompleted == false)
            {
                // The client did not set the completed signal. This means the delay task must have completed and hence the test failed.
                testComplete.SetResult(false);
            }

            Assert.True(testComplete.Task.Result);

            cancelServer.Cancel();
        }