public void it_will_throw_an_exception_when_an_anonymous_object_has_a_property_with_the_wrong_type()
{
var configReader = new ConfigurationReader(this.configSource).
SetupConfigOf<IConfigurationAdapter1>(
new
{
StringProperty = "Default",
IntegerProperty = 12,
ColorProperty = Color.DimGray,
AddressProperty = Assembly.GetExecutingAssembly() // Arbitrary choise. Just for the test's sake...
});
}
/// <summary>
/// Initialize HotKey79.
/// </summary>
/// <param name="configurationReader">Configuration read from file.</param>
public void Initialize(ConfigurationReader configurationReader)
{
if (IsAlreadyRunning())
{
throw new ProgramException("Only one instance of HotKey79 is allowed.");
}
List<HotKey> hotkeys = configurationReader.GetHotKeys();
if (hotkeys.Count == 0)
{
throw new ProgramException("No command is defined in \"" + configurationReader.GetConfigurationFile() + "\".");
}
else
{
keyboardHook = new KeyboardHook();
keyboardHook.KeyPressed += new EventHandler<KeyPressedEventArgs>(KeyboardHookKeyPressed);
commands = new Dictionary<int, HotKey>();
foreach (HotKey hotkey in hotkeys)
{
int hotkeyId = keyboardHook.RegisterHotKey(hotkey.GetModifiers(), hotkey.GetKey());
commands.Add(hotkeyId, hotkey);
}
}
}
public void it_should_return_the_default_value_for_the_type()
{
var configReader = new ConfigurationReader(this.configSource).SetupConfigOf<IConfigurationAdapter1>();
Assert.AreEqual(0, configReader.ConfigBrowser.Get<IConfigurationAdapter1>().IntegerProperty);
Assert.AreEqual(Color.Empty, configReader.ConfigBrowser.Get<IConfigurationAdapter1>().ColorProperty);
}
public void it_should_map_the_correct_value_to_per_interface()
{
var configReader = new ConfigurationReader(configSource);
var browser = configReader.SetupConfigOf<IConfigurationAdapter1>().SetupConfigOf<IConfigurationAdapter2>().ConfigBrowser;
Assert.AreEqual("1prop1", browser.Get<IConfigurationAdapter1>().StringProperty);
Assert.AreEqual("2prop1", browser.Get<IConfigurationAdapter2>().StringProperty);
}
public void it_will_use_the_default_values_when_no_value_was_specified_in_the_configuration()
{
var configReader = new ConfigurationReader(this.configSource).SetupConfigOf<IConfigurationAdapter1>(new ConfigurationAdapter1DefaultValues());
var browser = configReader.ConfigBrowser.Get<IConfigurationAdapter1>();
Assert.AreEqual("1prop1", browser.StringProperty);
Assert.AreEqual(12, browser.IntegerProperty);
Assert.AreEqual(Color.DimGray, browser.ColorProperty);
}
public void it_will_throw_an_exception_when_an_anonymous_object_is_missing_a_property_defined_in_the_configuration_adapter_interface()
{
var configReader = new ConfigurationReader(this.configSource).
SetupConfigOf<IConfigurationAdapter1>(
new
{
StringProperty = "Default",
IntegerProperty = 12,
ColorProperty = Color.DimGray,
});
}
public void Initialize()
{
ConfigurationReader configurationReader = new ConfigurationReader(new BinaryFormatter(), null);
configuration = configurationReader.Read("config.cfg");
mockCollisionHandler = new Mock<CollisionHandler>();
planet = new Planet();
planet.Mass = 100000;
// asume 40.0 * 40.0 world, planet is in the center
planet.Position = new Vector2(20.0f, 20.0f);
planet.Velocity = new Vector2(0.0f, 0.0f);
world = new World(new WorldObject[0]);
}
public void it_should_use_it_to_convert_type_that_have_no_type_converter()
{
var configReader = new ConfigurationReader(this.configSource);
configReader.
SetupCustomConverter(source => source.Split(';')).
SetupCustomConverter((string source) => IPAddress.Parse(source)).
SetupConfigOf<ICustomConversion>();
var array = configReader.ConfigBrowser.Get<ICustomConversion>().StringArray;
Assert.AreEqual(3, array.Count());
Assert.AreEqual("value3", array.ElementAt(2));
var ipAddress = configReader.ConfigBrowser.Get<ICustomConversion>().Address;
Assert.IsNotNull(ipAddress);
Assert.AreEqual("111.111.111.2", ipAddress.ToString());
}
public void it_will_use_default_values_from_an_anonymous_object_when_no_value_was_specified_in_the_configuration()
{
var configReader = new ConfigurationReader(this.configSource).
SetupConfigOf<IConfigurationAdapter1>(
new
{
StringProperty = "Default",
IntegerProperty = 12,
ColorProperty = Color.DimGray,
AddressProperty = (Uri) null
});
var browser = configReader.ConfigBrowser.Get<IConfigurationAdapter1>();
Assert.AreEqual("1prop1", browser.StringProperty);
Assert.AreEqual(12, browser.IntegerProperty);
Assert.AreEqual(Color.DimGray, browser.ColorProperty);
}
public void SaveFileTest()
{
string path = "etherduels.conf";
conf.Path = path;
conf.Save();
ConfigurationReader reader = new ConfigurationReader(new BinaryFormatter(), null);
Configuration secondConf = reader.Read(path);
if (secondConf == null)
Assert.Fail("Deserialized config is null");
if (!secondConf.Equals(conf))
Assert.Fail("Deserialized config != original conf");
conf.ToString();
secondConf.ToString();
}
public void it_should_convert_the_string_values_to_the_data_types()
{
var configReader = new ConfigurationReader(this.configSource);
configReader.
SetupConfigOf<IConfigurationAdapter1>().
SetupConfigOf<IConfigurationAdapter2>();
IConfigurationBrowser configurations = configReader.ConfigBrowser;
var configurationAdapter1 = configurations.Get<IConfigurationAdapter1>();
Assert.IsNotNull(configurationAdapter1);
Assert.IsNotNull(configurations.Get<IConfigurationAdapter2>());
Assert.AreEqual("1prop1", configurationAdapter1.StringProperty);
Assert.AreEqual(2, configurationAdapter1.IntegerProperty);
Assert.AreEqual(Color.White, configurationAdapter1.ColorProperty);
Assert.AreEqual(new Uri("http://localhost"), configurationAdapter1.AddressProperty);
}
public static void Register(HttpConfiguration config)
{
config.Routes.MapHttpRoute(
name: "DefaultApi",
routeTemplate: "api/{controller}/{id}",
defaults: new {id = RouteParameter.Optional}
);
var tokenBuilder = new SecurityTokenBuilder();
var configReader = new ConfigurationReader();
var jwtHandlerCert = new JwtAuthenticationMessageHandler
{
AllowedAudience = configReader.AllowedAudience,
AllowedAudiences = configReader.AllowedAudiences,
Issuer = configReader.Issuer,
SigningToken = tokenBuilder.CreateFromCertificate(configReader.SubjectCertificateName),
PrincipalTransformer = new SamplePrincipalTransformer()
};
var jwtHandlerSharedKey = new JwtAuthenticationMessageHandler
{
AllowedAudience = configReader.AllowedAudience,
Issuer = configReader.Issuer,
SigningToken = tokenBuilder.CreateFromKey(configReader.SymmetricKey),
PrincipalTransformer = new SamplePrincipalTransformer(),
CookieNameToCheckForToken = configReader.CookieNameToCheckForToken
};
config.MessageHandlers.Add(jwtHandlerCert);
config.MessageHandlers.Add(jwtHandlerSharedKey);
// Uncomment the following line of code to enable query support for actions with an IQueryable or IQueryable<T> return type.
// To avoid processing unexpected or malicious queries, use the validation settings on QueryableAttribute to validate incoming queries.
// For more information, visit http://go.microsoft.com/fwlink/?LinkId=279712.
//config.EnableQuerySupport();
// To disable tracing in your application, please comment out or remove the following line of code
// For more information, refer to: http://www.asp.net/web-api
config.EnableSystemDiagnosticsTracing();
}
public void it_should_read_the_default_values_of_the_second_adapter()
{
var configDictionaryToReturn =
new Dictionary<string, string>
{
{"ConfigurationAdapter1.IntegerProperty", 2.ToString()},
{"ConfigurationAdapter1.StringProperty", "1prop1"},
{"ConfigurationAdapter1.ColorProperty", "#FFFFFF"},
{"ConfigurationAdapter1.AddressProperty", "http://localhost"}
};
SetupResult.For(this.configSource.GetConfigDictionary()).Return(configDictionaryToReturn);
this.mocks.ReplayAll();
var configReader = new ConfigurationReader(configSource);
configReader.SetupConfigOf<IConfigurationAdapter1>(new DefaultAdapter1Values());
configReader.SetupConfigOf<IConfigurationAdapter2>(new DefaultAdapter2Values());
Assert.AreEqual(true, configReader.ConfigBrowser.Get<IConfigurationAdapter2>().BoolProperty);
}
public void ReadDefaultIntValueFromConstructor()
{
var settings = ConfigurationReader <SettingsWithOptionalInt> .ReadFromCollection(new KeyValueConfigurationCollection());
Assert.AreEqual(SettingsWithOptionalInt.DefaultValue, settings.IntValue);
}
/// 加载资源映射文件
private static void LoadConfig()
{
string mapText = ConfigurationReader.GetConfigFile(FILE_NAME);
ConfigurationReader.Load(mapText, configMap, BuildMap);
}
internal StandardConfigurationLoader(StandardClientOptions options, IConfiguration configuration)
{
Options = options ?? throw new ArgumentNullException(nameof(options));
Configuration = configuration ?? throw new ArgumentNullException(nameof(configuration));
ConfigurationReader = new ConfigurationReader(Configuration);
}
public void SetUp()
{
_configurationReader = ContextRegistry.GetContext()["ConfigurationReader"] as ConfigurationReader;
}
private static void Initialize(Type componentType)
{
// this is to ensure, that assemblies placed next to the component assembly can be loaded
// even when they are not strong named.
AppDomain.CurrentDomain.AssemblyResolve += new ResolveEventHandler(CurrentDomain_AssemblyResolve);
FileInfo componentAssemblyFile = new FileInfo(componentType.Assembly.Location);
FileInfo assemblyFile = new FileInfo(componentAssemblyFile.FullName);
bool isRunningOutOfProcess = IsRunningOutOfProcess();
FileInfo configFile = new FileInfo(componentAssemblyFile.FullName + ".config");
// no config file and in-proc -> reuse app's context, error otherwise
if (!configFile.Exists)
{
if (!isRunningOutOfProcess)
{
// check for context with component's name
if (ContextRegistry.IsContextRegistered(componentType.Name))
{
Trace.WriteLine(string.Format("configuring COM InProc Server '{0}' using section <spring/context name={1}> from app.config", componentAssemblyFile.FullName, componentType.Name));
_appContext = ContextRegistry.GetContext(componentType.Name);
}
else
{
Trace.WriteLine(string.Format("configuring COM InProc Server '{0}' using section <spring/context> from file '{1}'", componentAssemblyFile.FullName, configFile.FullName));
_appContext = ContextRegistry.GetContext();
}
return;
}
throw ConfigurationUtils.CreateConfigurationException("Spring-exported COM components require <spring/context> section in configuration file '" + configFile.FullName + "'");
}
// set and switch to component assembly's directory (affects resolving relative paths during context instantiation!)
componentDirectory = componentAssemblyFile.Directory.FullName;
Environment.CurrentDirectory = componentDirectory;
if (isRunningOutOfProcess)
{
#if NET_2_0
Trace.WriteLine(string.Format("configuring COM OutProc Server '{0}' using '{1}'", componentAssemblyFile.FullName, configFile.FullName));
// read in config file
ExeConfigurationSystem comConfig = new ExeConfigurationSystem(assemblyFile.FullName);
// make the config "global" for this process, replacing any
// existing configuration that might already have been loaded
ConfigurationUtils.SetConfigurationSystem(comConfig, true);
_appContext = ContextRegistry.GetContext();
#else
_appContext = (IApplicationContext)ConfigurationReader.GetSection(new FileSystemResource(configFile.FullName), "spring/context");
#endif
}
else
{
Trace.WriteLine(string.Format("configuring COM InProc Server '{0}' using section <spring/context> from file '{1}'", componentAssemblyFile.FullName, configFile.FullName));
_appContext = (IApplicationContext)ConfigurationReader.GetSection(new FileSystemResource(configFile.FullName), "spring/context");
}
if (_appContext == null)
{
throw ConfigurationUtils.CreateConfigurationException("Spring-exported COM components require <spring/context> section in configuration file");
}
Trace.WriteLine(string.Format("completed configuring COM Component '{0}' using '{1}'", componentAssemblyFile.FullName, configFile.FullName));
}
public void GoToCrossReferenceXMLPage(string ProfileName)
{
string CRId = GetCRTID(ProfileName.ToUpper());
webDriver.Navigate().GoToUrl(ConfigurationReader.GetValue("CrossReferenceXMLPage") + CRId);
}
private void ReadConfiguration()
{
// TODO-RPB: Can this be broken up into more methods?
m_configurationReader = gameObject.AddComponent <ConfigurationReader>();
var configuration = m_configurationReader.GetConfiguration();
if (configuration == null)
{
m_statusText.text = "[ ERROR ] Config file not found... falling back to default values";
Debug.LogWarning("No configuration file found (unusual), so falling back to default values");
configuration = new SongSortConfiguration();
}
// RPB: This is optional. If empty, will fall back to the default.
if (!string.IsNullOrEmpty(configuration.LaunchSongKeyCodeString))
{
m_launchPlayerKeyCode = (KeyCode)System.Enum.Parse(typeof(KeyCode), configuration.LaunchSongKeyCodeString);
}
// RPB: This is optional. If empty, will fall back to the default.
if (!string.IsNullOrEmpty(configuration.LaunchSongKeyCodeString))
{
m_skipSongKeyCode = (KeyCode)System.Enum.Parse(typeof(KeyCode), configuration.SkipSongKeyCodeString);
}
// RPB: This is optional. If empty, will fall back to the default.
if (!string.IsNullOrEmpty(configuration.LaunchSongKeyCodeString))
{
m_holdSongKeyCode = (KeyCode)System.Enum.Parse(typeof(KeyCode), configuration.HoldSongKeyCodeString);
}
// RPB: This is optional. If empty, will fall back to the default.
if (!string.IsNullOrEmpty(configuration.UndoKeyCodeString))
{
m_undoKeyCode = (KeyCode)System.Enum.Parse(typeof(KeyCode), configuration.UndoKeyCodeString);
}
// RPB: This is optional. If empty, will fall back to the default.
if (!string.IsNullOrEmpty(configuration.TogglePlaybackModeKeyCodeString))
{
m_togglePlaybackModeKeyCode = (KeyCode)System.Enum.Parse(typeof(KeyCode), configuration.TogglePlaybackModeKeyCodeString);
}
// RPB: This is optional. If empty, will fall back to the default.
if (!string.IsNullOrEmpty(configuration.ShowStatisticsKeyCodeString))
{
m_showStatisticsKeyCode = (KeyCode)System.Enum.Parse(typeof(KeyCode), configuration.ShowStatisticsKeyCodeString);
}
// RPB: This is optional. If empty, will fall back to the default.
if (!string.IsNullOrEmpty(configuration.ShowControlsKeyCodeString))
{
m_showControlsKeyCode = (KeyCode)System.Enum.Parse(typeof(KeyCode), configuration.ShowControlsKeyCodeString);
}
// RPB: This is optional. If empty, will fall back to the default.
if (!string.IsNullOrEmpty(configuration.ExitKeyCodeString))
{
m_exitKeyCode = (KeyCode)System.Enum.Parse(typeof(KeyCode), configuration.ExitKeyCodeString);
}
// RPB: This is optional. If empty, will fall back to the default.
if (!string.IsNullOrEmpty(configuration.SeekForwardKeyCodeString))
{
m_seekForwardKeyCode = (KeyCode)System.Enum.Parse(typeof(KeyCode), configuration.SeekForwardKeyCodeString);
}
// RPB: This is optional. If empty, will fall back to the default.
if (!string.IsNullOrEmpty(configuration.SeekBackwardKeyCodeString))
{
m_seekBackwardKeyCode = (KeyCode)System.Enum.Parse(typeof(KeyCode), configuration.SeekBackwardKeyCodeString);
}
m_seekIntervalSeconds = configuration.SeekIntervalSeconds;
if (configuration.SkipBrowserDialogOnOpen)
{
m_songFolderSourceSongs = configuration.DefaultSourceDirectory;
}
else
{
var paths = StandaloneFileBrowser.OpenFolderPanel("Select Source Folder", "", false);
if (paths == null || paths.Length == 0)
{
Application.Quit();
}
m_songFolderSourceSongs = paths[0];
}
if (configuration.FolderHotkeyMapping == null || configuration.FolderHotkeyMapping.Length == 0)
{
Debug.LogWarning("FolderHotkeyMapping not found! Falling back to defaults...");
var approveMapping = new FolderHotkeyMapping("Approved", true, "RightArrow", "ApproveSound.wav");
var rejectMapping = new FolderHotkeyMapping("Rejected", true, "LeftArrow", "ApproveSound.wav");
configuration.FolderHotkeyMapping = new FolderHotkeyMapping[] { approveMapping, rejectMapping };
}
// TODO-RPB: This needs to be error checked like crazy! I can imagine this being fragile
for (int i = 0; i < configuration.FolderHotkeyMapping.Length; i++)
{
m_keyFolderMappings.Add(new FolderHotkeyMappingInternal(configuration.FolderHotkeyMapping[i], m_songFolderSourceSongs));
}
for (int i = 0; i < m_keyFolderMappings.Count; i++)
{
Directory.CreateDirectory(m_keyFolderMappings[i].AbsoluteFolderPath);
StartCoroutine(SetAudioClip(m_keyFolderMappings[i]));
}
var allFiles = Directory.GetFiles(m_songFolderSourceSongs);
if (configuration.RandomizeOrder)
{
System.Random rnd = new System.Random();
allFiles = allFiles.OrderBy(x => rnd.Next()).ToArray();
}
m_songFilesToProcess = new Queue <string>();
for (int i = 0; i < allFiles.Length; i++)
{
if (Path.GetExtension(allFiles[i]) == ".mp3")
{
m_songFilesToProcess.Enqueue(allFiles[i]);
}
}
}
public void EnList()
{
TransactionManagerServiceProxy proxyForTM = new TransactionManagerServiceProxy(ConfigurationReader.ReadValue(_context, "Settings", "TM") ?? "fabric:/ServiceFabricApp/TransactionManagerService");
proxyForTM.Enlist().GetAwaiter().GetResult();
}
public async Task <bool> ModelUpdate(AffectedEntities model)
{
ServiceEventSource.Current.ServiceMessage(_context, "NDS - ModelUpdate");
var nms = new NetworkModelServiceProxy(ConfigurationReader.ReadValue(_context, "Settings", "NMS") ?? "net.tcp://localhost:22330/NetworkModelServiceSF");
ScadaStorageProxy storage = new ScadaStorageProxy(ConfigurationReader.ReadValue(_context, "Settings", "Storage"));
var cimModel = await storage.GetCimModel();
if (cimModel == null)
{
cimModel = new Dictionary <DMSType, Container>();
}
model.Insert = model.Insert.Where(x => this.GetDMSType(x) == DMSType.ANALOG || this.GetDMSType(x) == DMSType.DISCRETE ||
this.GetDMSType(x) == DMSType.BREAKER || this.GetDMSType(x) == DMSType.DISCONNECTOR).ToList();
model.Update = model.Update.Where(x => this.GetDMSType(x) == DMSType.ANALOG || this.GetDMSType(x) == DMSType.DISCRETE ||
this.GetDMSType(x) == DMSType.BREAKER || this.GetDMSType(x) == DMSType.DISCONNECTOR).ToList();
model.Delete = model.Delete.Where(x => this.GetDMSType(x) == DMSType.ANALOG || this.GetDMSType(x) == DMSType.DISCRETE ||
this.GetDMSType(x) == DMSType.BREAKER || this.GetDMSType(x) == DMSType.DISCONNECTOR).ToList();
if (model.Insert.Count > 0)
{
var dataInsert = await nms.GetValues(model.Insert);
foreach (var item in dataInsert)
{
var dmsType = GetDMSType(item.GID);
if (!cimModel.ContainsKey(dmsType))
{
cimModel.Add(dmsType, new Container());
}
cimModel[dmsType].AddEntity(item);
}
}
if (model.Update.Count > 0)
{
var dataUpdate = await nms.GetValues(model.Update);
foreach (var item in dataUpdate)
{
var dmsType = GetDMSType(item.GID);
if (!cimModel.ContainsKey(dmsType))
{
cimModel.Add(dmsType, new Container());
}
cimModel[dmsType].RemoveEntity(item.GID);
cimModel[dmsType].AddEntity(item);
}
}
if (model.Delete.Count > 0)
{
var dataDelete = await nms.GetValues(model.Delete);
foreach (var item in dataDelete)
{
var dmsType = GetDMSType(item.GID);
if (!cimModel.ContainsKey(dmsType))
{
cimModel.Add(dmsType, new Container());
}
cimModel[dmsType].RemoveEntity(item.GID);
}
}
await storage.SetCimModel(cimModel);
EnList();
return(true);
}
/// <summary>
/// Builds the logger factory adapter.
/// </summary>
/// <returns>a factory adapter instance. Is never <c>null</c>.</returns>
private static ILoggerFactoryAdapter BuildLoggerFactoryAdapter()
{
object sectionResult = null;
ArgUtils.Guard(delegate
{
sectionResult = ConfigurationReader.GetSection(COMMON_LOGGING_SECTION);
}
, "Failed obtaining configuration for Common.Logging from configuration section 'common/logging'.");
// configuration reader returned <null>
if (sectionResult == null)
{
string message = (ConfigurationReader.GetType() == typeof(DefaultConfigurationReader))
? string.Format("no configuration section <{0}> found - suppressing logging output", COMMON_LOGGING_SECTION)
: string.Format("Custom ConfigurationReader '{0}' returned <null> - suppressing logging output", ConfigurationReader.GetType().FullName);
Trace.WriteLine(message);
ILoggerFactoryAdapter defaultFactory = new NoOpLoggerFactoryAdapter();
return(defaultFactory);
}
// ready to use ILoggerFactoryAdapter?
if (sectionResult is ILoggerFactoryAdapter)
{
Trace.WriteLine(string.Format("Using ILoggerFactoryAdapter returned from custom ConfigurationReader '{0}'", ConfigurationReader.GetType().FullName));
return((ILoggerFactoryAdapter)sectionResult);
}
// ensure what's left is a LogSetting instance
ArgUtils.Guard(delegate
{
ArgUtils.AssertIsAssignable <LogSetting>("sectionResult", sectionResult.GetType());
}
, "ConfigurationReader {0} returned unknown settings instance of type {1}"
, ConfigurationReader.GetType().FullName, sectionResult.GetType().FullName);
ILoggerFactoryAdapter adapter = null;
ArgUtils.Guard(delegate
{
adapter = BuildLoggerFactoryAdapterFromLogSettings((LogSetting)sectionResult);
}
, "Failed creating LoggerFactoryAdapter from settings");
return(adapter);
}
/// <summary>
/// The main entry point.
/// </summary>
/// <param name="args">Command line parameters.</param>
public static void Main(string[] args)
{
Console.WriteLine(Resources.ProgramTitle, Utility.ReadVersion());
if (args == null || (args.Length != 3 && args.Length != 4))
{
Console.WriteLine(Resources.ProgramUsage);
Console.WriteLine(Resources.ProgramUsageExample);
}
else
{
string scenarioName = args[0];
string traceFile = args[1];
string configFile = args[2];
string timingsFile = (args.Length == 4) ? args[3] : null;
Stream timings = null;
try
{
if (timingsFile != null)
{
if (File.Exists(timingsFile))
{
try
{
timings = new FileStream(timingsFile, FileMode.Open, FileAccess.Read, FileShare.Read);
}
catch (Exception e)
{
Console.WriteLine(e.Message);
}
}
else
{
Console.WriteLine(Resources.TimingsFileDoesNotExist, timingsFile);
}
}
if (Utility.IsValidIdentifier(scenarioName))
{
try
{
WcfUnitConfiguration config = ConfigurationReader.Read(configFile);
TraceFileProcessor tfp = new TraceFileProcessor();
tfp.ProcessTraceFile(scenarioName, traceFile, timings, config);
}
catch (UserException ue)
{
Console.WriteLine(ue.Message);
Exception e = ue.InnerException;
while (e != null)
{
Console.WriteLine(e.Message);
e = e.InnerException;
}
Environment.Exit(1);
}
}
else
{
Console.WriteLine(Resources.InvalidScenarioName);
Environment.Exit(1);
}
}
finally
{
if (timings != null)
{
timings.Dispose();
}
}
}
}
/// <summary>
/// Sends the SMS.
/// </summary>
/// <param name="request">The request.</param>
/// <param name="cancellationToken">The cancellation token.</param>
/// <returns></returns>
public async Task <SendSMSResponse> SendSMS(SendSMSRequest request, CancellationToken cancellationToken)
{
SendSMSResponse response = null;
using (HttpClient client = new HttpClient())
{
// Create the Auth Request
TheSmsWorksTokenRequest apiTokenRequest = new TheSmsWorksTokenRequest
{
CustomerId = ConfigurationReader.GetValue("TheSMSWorksCustomerId"),
Key = ConfigurationReader.GetValue("TheSMSWorksKey"),
Secret = ConfigurationReader.GetValue("TheSMSWorksSecret")
};
String apiTokenRequestSerialised = JsonConvert.SerializeObject(apiTokenRequest).ToLower();
StringContent content = new StringContent(apiTokenRequestSerialised, Encoding.UTF8, "application/json");
// First do the authentication
var apiTokenHttpResponse = await client.PostAsync($"{ConfigurationReader.GetValue("TheSMSWorksBaseAddress")}auth/token", content, cancellationToken);
if (apiTokenHttpResponse.IsSuccessStatusCode)
{
TheSmsWorksTokenResponse apiTokenResponse =
JsonConvert.DeserializeObject <TheSmsWorksTokenResponse>(await apiTokenHttpResponse.Content
.ReadAsStringAsync());
// Now do the actual send
TheSmsWorksSendSMSRequest apiSendSmsRequest = new TheSmsWorksSendSMSRequest
{
Content = request.Message,
Sender = request.Sender,
Destination = request.Destination,
Schedule = string.Empty,
Tag = string.Empty,
Ttl = 0
};
String apiSendSMSMessageRequestSerialised = JsonConvert.SerializeObject(apiSendSmsRequest).ToLower();
content = new StringContent(apiSendSMSMessageRequestSerialised, Encoding.UTF8, "application/json");
client.DefaultRequestHeaders.Add("Authorization", apiTokenResponse.Token);
var apiSendSMSMessageHttpResponse = await client.PostAsync($"{ConfigurationReader.GetValue("TheSMSWorksBaseAddress")}message/send", content, cancellationToken);
if (apiSendSMSMessageHttpResponse.IsSuccessStatusCode)
{
// Message has been sent
TheSmsWorksSendSMSResponse apiTheSmsWorksSendSmsResponse =
JsonConvert.DeserializeObject <TheSmsWorksSendSMSResponse>(await apiSendSMSMessageHttpResponse.Content
.ReadAsStringAsync());
response = new SendSMSResponse
{
ApiStatusCode = apiSendSMSMessageHttpResponse.StatusCode,
MessageId = apiTheSmsWorksSendSmsResponse.MessageId,
Status = apiTheSmsWorksSendSmsResponse.Status
};
}
else
{
response = await HandleAPIError(apiSendSMSMessageHttpResponse);
}
}
else
{
response = await HandleAPIError(apiTokenHttpResponse);
}
}
return(response);
}
public void SetUp()
{
configurationReader = new ConfigurationReader();
cfg = configurationReader.Read();
}
public ActionResult Index()
{
Consumer objectConsumer = new Consumer();
try
{
ConfigurationReader configurationReader = new ConfigurationReader();
if (string.Equals(configurationReader.EmailTurnOn.ToLower(), "true"))
{
EmailSender objEmailSender = new EmailSender(@".\Private$\EmailQueue");
MailMessage objMailMessage = new MailMessage();
objectConsumer.logEntry = new LogEntry {
Message = "Configuration read : ", Severity = TraceEventType.Information
};
objectConsumer.WriteLog(objectConsumer.logEntry);
objMailMessage.From = new MailAddress(configurationReader.EmailFrom);
char[] delimiters = new[] { ',', ';' };
bool mailSent = default(bool);
// EmailTo list
if (!string.IsNullOrEmpty(configurationReader.EmailTo))
{
if (configurationReader.EmailTo.Contains(",") || configurationReader.EmailTo.Contains(";"))
{
string[] emailToList = configurationReader.EmailTo.Split(delimiters, StringSplitOptions.RemoveEmptyEntries);
foreach (var emailToItem in emailToList)
{
objMailMessage.To.Add(emailToItem);
}
}
else
{
objMailMessage.To.Add(configurationReader.EmailTo);
}
}
//EmailCC List
if (!string.IsNullOrEmpty(configurationReader.EmailCC))
{
if (configurationReader.EmailCC.Contains(",") || configurationReader.EmailCC.Contains(";"))
{
string[] emailCCList = configurationReader.EmailCC.Split(delimiters, StringSplitOptions.RemoveEmptyEntries);
foreach (var emailCCItem in emailCCList)
{
objMailMessage.CC.Add(emailCCItem);
}
}
else
{
objMailMessage.CC.Add(configurationReader.EmailCC);
}
}
//EmailBCC List
if (!string.IsNullOrEmpty(configurationReader.EmailBcc))
{
if (configurationReader.EmailBcc.Contains(",") || configurationReader.EmailBcc.Contains(";"))
{
string[] emailBCCList = configurationReader.EmailBcc.Split(delimiters, StringSplitOptions.RemoveEmptyEntries);
foreach (var emailBCCItem in emailBCCList)
{
objMailMessage.To.Add(emailBCCItem);
}
}
else
{
objMailMessage.Bcc.Add(configurationReader.EmailBcc);
}
}
objMailMessage.Subject = "Sample message";
objMailMessage.IsBodyHtml = true;
objMailMessage.Body = @"<h1>This is sample</h1><a href=""http://http://www.codeproject.com"">See this link</a>";
objEmailSender.QueueMessage(objMailMessage);
objectConsumer.logEntry = new LogEntry {
Message = "Successfully queued", Severity = TraceEventType.Information
};
objectConsumer.WriteLog(objectConsumer.logEntry);
}
}
catch (Exception loggingEx)
{
//================================================================================================
objectConsumer.logEntry = new LogEntry {
Message = "***************** Exception *****************", Severity = TraceEventType.Error
};
objectConsumer.WriteLog(objectConsumer.logEntry);
objectConsumer.logEntry = new LogEntry {
Message = "Could not start the service : " + loggingEx.Message, Severity = TraceEventType.Critical
};
objectConsumer.WriteLog(objectConsumer.logEntry);
objectConsumer.logEntry = new LogEntry {
Message = "Inner Exception : " + loggingEx.InnerException, Severity = TraceEventType.Error
};
objectConsumer.WriteLog(objectConsumer.logEntry);
objectConsumer.logEntry = new LogEntry {
Message = "Stack Trace : " + loggingEx.StackTrace, Severity = TraceEventType.Error
};
objectConsumer.WriteLog(objectConsumer.logEntry);
//================================================================================================
}
return(View());
}
public string Resolve(string name)
{
return(ConfigurationReader.ReadAppSetting(name));
}
public void OpenOSTHomePage()
{
webDriver.Navigate().GoToUrl(ConfigurationReader.GetValue("OSTHomePageUrl"));
}
public void Execute()
{
Logger.Trace("Starting Network Monitor");
Start(ConfigurationReader.Read());
}
// Adds endpoints from config to KestrelServerOptions.ConfigurationBackedListenOptions and configures some other options.
// Any endpoints that were removed from the last time endpoints were loaded are returned.
internal (List <ListenOptions>, List <ListenOptions>) Reload()
{
var endpointsToStop = Options.ConfigurationBackedListenOptions.ToList();
var endpointsToStart = new List <ListenOptions>();
Options.ConfigurationBackedListenOptions.Clear();
DefaultCertificateConfig = null;
ConfigurationReader = new ConfigurationReader(Configuration);
LoadDefaultCert(ConfigurationReader);
foreach (var endpoint in ConfigurationReader.Endpoints)
{
var listenOptions = AddressBinder.ParseAddress(endpoint.Url, out var https);
Options.ApplyEndpointDefaults(listenOptions);
if (endpoint.Protocols.HasValue)
{
listenOptions.Protocols = endpoint.Protocols.Value;
}
else
{
// Ensure endpoint is reloaded if it used the default protocol and the protocol changed.
// listenOptions.Protocols should already be set to this by ApplyEndpointDefaults.
endpoint.Protocols = ConfigurationReader.EndpointDefaults.Protocols;
}
// Compare to UseHttps(httpsOptions => { })
var httpsOptions = new HttpsConnectionAdapterOptions();
if (https)
{
httpsOptions.SslProtocols = ConfigurationReader.EndpointDefaults.SslProtocols ?? SslProtocols.None;
// Defaults
Options.ApplyHttpsDefaults(httpsOptions);
if (endpoint.SslProtocols.HasValue)
{
httpsOptions.SslProtocols = endpoint.SslProtocols.Value;
}
// Specified
httpsOptions.ServerCertificate = LoadCertificate(endpoint.Certificate, endpoint.Name)
?? httpsOptions.ServerCertificate;
if (httpsOptions.ServerCertificate == null && httpsOptions.ServerCertificateSelector == null)
{
// Fallback
Options.ApplyDefaultCert(httpsOptions);
// Ensure endpoint is reloaded if it used the default certificate and the certificate changed.
endpoint.Certificate = DefaultCertificateConfig;
}
}
// Now that defaults have been loaded, we can compare to the currently bound endpoints to see if the config changed.
// There's no reason to rerun an EndpointConfigurations callback if nothing changed.
var matchingBoundEndpoints = endpointsToStop.Where(o => o.EndpointConfig == endpoint).ToList();
if (matchingBoundEndpoints.Count > 0)
{
endpointsToStop.RemoveAll(o => o.EndpointConfig == endpoint);
Options.ConfigurationBackedListenOptions.AddRange(matchingBoundEndpoints);
continue;
}
if (EndpointConfigurations.TryGetValue(endpoint.Name, out var configureEndpoint))
{
var endpointConfig = new EndpointConfiguration(https, listenOptions, httpsOptions, endpoint.ConfigSection);
configureEndpoint(endpointConfig);
}
// EndpointDefaults or configureEndpoint may have added an https adapter.
if (https && !listenOptions.IsTls)
{
if (httpsOptions.ServerCertificate == null && httpsOptions.ServerCertificateSelector == null)
{
throw new InvalidOperationException(CoreStrings.NoCertSpecifiedNoDevelopmentCertificateFound);
}
listenOptions.UseHttps(httpsOptions);
}
listenOptions.EndpointConfig = endpoint;
endpointsToStart.Add(listenOptions);
Options.ConfigurationBackedListenOptions.Add(listenOptions);
}
return(endpointsToStop, endpointsToStart);
}
public void ReadEndpointsSection_ReturnsCollection()
{
var config = new ConfigurationBuilder().AddInMemoryCollection(new[]
{
new KeyValuePair <string, string>("Endpoints:End1:Url", "http://*:5001"),
new KeyValuePair <string, string>("Endpoints:End2:Url", "https://*:5002"),
new KeyValuePair <string, string>("Endpoints:End3:Url", "https://*:5003"),
new KeyValuePair <string, string>("Endpoints:End3:Certificate:Path", "/path/cert.pfx"),
new KeyValuePair <string, string>("Endpoints:End3:Certificate:Password", "certpassword"),
new KeyValuePair <string, string>("Endpoints:End4:Url", "https://*:5004"),
new KeyValuePair <string, string>("Endpoints:End4:Certificate:Subject", "certsubject"),
new KeyValuePair <string, string>("Endpoints:End4:Certificate:Store", "certstore"),
new KeyValuePair <string, string>("Endpoints:End4:Certificate:Location", "cetlocation"),
new KeyValuePair <string, string>("Endpoints:End4:Certificate:AllowInvalid", "true"),
}).Build();
var reader = new ConfigurationReader(config);
var endpoints = reader.Endpoints;
Assert.NotNull(endpoints);
Assert.Equal(4, endpoints.Count());
var end1 = endpoints.First();
Assert.Equal("End1", end1.Name);
Assert.Equal("http://*:5001", end1.Url);
Assert.NotNull(end1.ConfigSection);
Assert.NotNull(end1.Certificate);
Assert.False(end1.Certificate.ConfigSection.Exists());
var end2 = endpoints.Skip(1).First();
Assert.Equal("End2", end2.Name);
Assert.Equal("https://*:5002", end2.Url);
Assert.NotNull(end2.ConfigSection);
Assert.NotNull(end2.Certificate);
Assert.False(end2.Certificate.ConfigSection.Exists());
var end3 = endpoints.Skip(2).First();
Assert.Equal("End3", end3.Name);
Assert.Equal("https://*:5003", end3.Url);
Assert.NotNull(end3.ConfigSection);
Assert.NotNull(end3.Certificate);
Assert.True(end3.Certificate.ConfigSection.Exists());
var cert3 = end3.Certificate;
Assert.True(cert3.IsFileCert);
Assert.False(cert3.IsStoreCert);
Assert.Equal("/path/cert.pfx", cert3.Path);
Assert.Equal("certpassword", cert3.Password);
var end4 = endpoints.Skip(3).First();
Assert.Equal("End4", end4.Name);
Assert.Equal("https://*:5004", end4.Url);
Assert.NotNull(end4.ConfigSection);
Assert.NotNull(end4.Certificate);
Assert.True(end4.Certificate.ConfigSection.Exists());
var cert4 = end4.Certificate;
Assert.False(cert4.IsFileCert);
Assert.True(cert4.IsStoreCert);
Assert.Equal("certsubject", cert4.Subject);
Assert.Equal("certstore", cert4.Store);
Assert.Equal("cetlocation", cert4.Location);
Assert.True(cert4.AllowInvalid);
}
public void it_should_throw_an_exception_stating_the_property_name()
{
var configReader = new ConfigurationReader(configSource);
configReader.SetupConfigOf<IConfigurationAdapter1>();
}
public void ReadIntoNestedClass()
{
var settings = ConfigurationReader <NestedSettings> .ReadFromCollection(new KeyValueConfigurationCollection());
Assert.NotNull(settings);
}
/// <summary>
/// Returns a set of random binary partial configurations.
/// </summary>
/// <param name="parameters">Parameters for this random sampling. The following paramters are supported:
/// seed = the seed for the random generator (int required)
/// numConfigs = the number of configurations that have to be selected.
/// To be able ot select a number of configurations equal to the number selected by the OW heuristic or
/// the TWise heuristics, two special values can be given for this paramter. To select a number equal to
/// the OW heuristics use "asOW" as value and to select a number equal to a TWise heuristics with a t of X
/// use "asTWX".
/// </param>
/// <returns>A list of random binary partial configuartions.</returns>
public List <List <BinaryOption> > getRandomConfigs(Dictionary <String, String> parameters)
{
configurations.Clear();
int seed = 0;
int numConfigs = varModel.WithAbstractBinaryOptions.Count;
// parse parameters
if (parameters.ContainsKey("numConfigs"))
{
String numConfigsValue = parameters["numConfigs"];
if (!int.TryParse(numConfigsValue, out numConfigs))
{
// special constants as parameter (numConfigs = asOW or asTWX
if (numConfigsValue.Contains("asOW"))
{
FeatureWise fw = new FeatureWise();
numConfigs = fw.generateFeatureWiseConfigsCSP(varModel).Count;
}
else if (numConfigsValue.Contains("asTW"))
{
numConfigsValue = numConfigsValue.Replace("asTW", "").Trim();
int.TryParse(numConfigsValue, out numConfigs);
TWise tw = new TWise();
numConfigs = tw.generateT_WiseVariants_new(varModel, numConfigs).Count;
}
}
}
if (parameters.ContainsKey("seed"))
{
int.TryParse(parameters["seed"], out seed);
}
// build set of all valid binary partial configurations
List <List <BinaryOption> > allConfigs = new List <List <BinaryOption> >();
if (parameters.ContainsKey("fromFile"))
{
List <Configuration> allConfigurations = ConfigurationReader.readConfigurations(parameters["fromFile"], varModel);
foreach (Configuration config in allConfigurations)
{
allConfigs.Add(config.BinaryOptions.Keys.ToList());
}
}
else
{
allConfigs = ConfigurationBuilder.vg.GenerateAllVariantsFast(varModel);
}
//repair wrong parameters
if (numConfigs >= allConfigs.Count)
{
if (numConfigs > allConfigs.Count)
{
GlobalState.logError.logLine("Random Sampling: numConfigs to large for variability model. num set to " + allConfigs.Count);
}
configurations = allConfigs;
return(allConfigs);
}
// select random configurations
Random r = new Random(seed);
for (int i = 0; i < numConfigs; i++)
{
List <BinaryOption> selectedConfig = allConfigs[r.Next(allConfigs.Count)];
if (configurations.Contains(selectedConfig))
{
i -= 1;
}
else
{
configurations.Add(selectedConfig);
}
}
return(configurations);
}
/// <summary>
/// Initializes a new instance of the <see cref="ClientRegistry"/> class.
/// </summary>
public ClientRegistry()
{
this.AddSingleton <ISecurityServiceClient, SecurityServiceClient>();
this.AddSingleton <IVoucherManagementClient, VoucherManagementClient>();
this.AddSingleton <Func <String, String> >(container => serviceName => { return(ConfigurationReader.GetBaseServerUri(serviceName).OriginalString); });
HttpClientHandler httpClientHandler = new HttpClientHandler
{
ServerCertificateCustomValidationCallback = (message,
certificate2,
arg3,
arg4) =>
{
return(true);
}
};
HttpClient httpClient = new HttpClient(httpClientHandler);
this.AddSingleton(httpClient);
}
static BillConfiguration()
{
LEGAL_MENTIONS = ConfigurationReader.GetCollection <string>("LegalMentions");
}
public App()
{
InitializeComponent();
var connection = HealthVaultConnectionFactory.Current.GetOrCreateSodaConnection(ConfigurationReader.ReadConfiguration());
var navigationService = new NavigationService();
var mainPage = new MenuPage
{
BindingContext = new MenuViewModel(connection, navigationService),
};
var navigationPage = new NavigationPage(mainPage)
{
BarBackgroundColor = Color.White, BarTextColor = Color.Black
};
navigationService.RegisterNavigateEvents(navigationPage);
MainPage = navigationPage;
}
public static void Dequeue(object Object)
{
lock (FileLock)
{
var ticketList = new List <Ticket>();
using (StreamReader reader = new StreamReader(filePath))
{
var data = reader.ReadToEnd();
reader.Close();
var allRecords = data.Split(new string[] { "(TICKET)" }, StringSplitOptions.None);
//Return if there are no records to be synced
if (!(allRecords.Length > 1))
{
return;
}
//Remove all records from file after reading them
File.WriteAllText(filePath, string.Empty);
var configurationSettings = ConfigurationReader.GetConfigurationSettings();
for (int i = 0; i < allRecords.Length - 1; i++)
{
var ticketData = allRecords[i].Split(new string[] { "(TP)" }, StringSplitOptions.None);
//Draw driver image from Base64 string
byte[] driverImageBytes = Convert.FromBase64String(ticketData[6]);
MemoryStream ms1 = new MemoryStream(driverImageBytes, 0, driverImageBytes.Length);
ms1.Write(driverImageBytes, 0, driverImageBytes.Length);
Image driverImage = Image.FromStream(ms1, true);
//Draw vehicle image from Base64 string
byte[] vehicleImageBytes = Convert.FromBase64String(ticketData[7]);
MemoryStream ms2 = new MemoryStream(vehicleImageBytes, 0, vehicleImageBytes.Length);
ms2.Write(vehicleImageBytes, 0, vehicleImageBytes.Length);
Image vehicleImage = Image.FromStream(ms2, true);
var ticket = new Ticket()
{
TicketNumber = ticketData[0],
ValidationNumber = ticketData[1],
QRCode = ticketData[2],
VehicleNumber = ticketData[3],
VehicleType = (VehicleType)int.Parse(ticketData[4]),
EntryTime = ticketData[5],
DriverImage = (Bitmap)driverImage,
VehicleImage = (Bitmap)vehicleImage
};
ticketList.Add(ticket);
}
foreach (var ticket in ticketList)
{
try
{
parkingDatabaseFactory.SaveVehicleEntry(configurationSettings.TDClientDeviceId, ticket);
}
catch (Exception)
{
//Queue all tickets again in case of network Failure
Queue(ticket);
}
}
}
}
}
public void SetUp()
{
_configurationReader = new ConfigurationReader("OEEServer.xml", "OEEClientMqConfig.xml", new AsyncClassLogger("ConfigurationReaderTest"));
}
public void ReadZeroAsDefaultIntValue()
{
var settings = ConfigurationReader <SettingsWithInt> .ReadFromCollection(new KeyValueConfigurationCollection());
Assert.AreEqual(0, settings.IntValue);
}
public void OpenCrossReferenceListPage(B2BEnvironment b2BEnvironment)
{
webDriver.Navigate().GoToUrl(ConfigurationReader.GetValue("CrossReferenceAssociationListPage") + (b2BEnvironment == B2BEnvironment.Production ? "P" : "U"));
}
internal KestrelConfigurationLoader(KestrelServerOptions options, IConfiguration configuration)
{
Options = options ?? throw new ArgumentNullException(nameof(options));
Configuration = configuration ?? throw new ArgumentNullException(nameof(configuration));
ConfigurationReader = new ConfigurationReader(Configuration);
}
public static void ReadAndRegisterConfiguration()
{
var config = new ConfigurationReader().Read("ConfigFiles", Environment.MachineName);
ObjectFactory.Configure(x => x.For <IAsimovConfig>().Use(config));
}
public GetCommand()
{
Reader = Defaults.DefaultConfig;
}
// Adds endpoints from config to KestrelServerOptions.ConfigurationBackedListenOptions and configures some other options.
// Any endpoints that were removed from the last time endpoints were loaded are returned.
internal (List <ListenOptions>, List <ListenOptions>) Reload()
{
var endpointsToStop = Options.ConfigurationBackedListenOptions.ToList();
var endpointsToStart = new List <ListenOptions>();
Options.ConfigurationBackedListenOptions.Clear();
DefaultCertificateConfig = null;
ConfigurationReader = new ConfigurationReader(Configuration);
LoadDefaultCert();
foreach (var endpoint in ConfigurationReader.Endpoints)
{
var listenOptions = AddressBinder.ParseAddress(endpoint.Url, out var https);
if (!https)
{
ConfigurationReader.ThrowIfContainsHttpsOnlyConfiguration(endpoint);
}
Options.ApplyEndpointDefaults(listenOptions);
if (endpoint.Protocols.HasValue)
{
listenOptions.Protocols = endpoint.Protocols.Value;
}
else
{
// Ensure endpoint is reloaded if it used the default protocol and the protocol changed.
// listenOptions.Protocols should already be set to this by ApplyEndpointDefaults.
endpoint.Protocols = ConfigurationReader.EndpointDefaults.Protocols;
}
// Compare to UseHttps(httpsOptions => { })
var httpsOptions = new HttpsConnectionAdapterOptions();
if (https)
{
// Defaults
Options.ApplyHttpsDefaults(httpsOptions);
if (endpoint.SslProtocols.HasValue)
{
httpsOptions.SslProtocols = endpoint.SslProtocols.Value;
}
else
{
// Ensure endpoint is reloaded if it used the default protocol and the SslProtocols changed.
endpoint.SslProtocols = ConfigurationReader.EndpointDefaults.SslProtocols;
}
if (endpoint.ClientCertificateMode.HasValue)
{
httpsOptions.ClientCertificateMode = endpoint.ClientCertificateMode.Value;
}
else
{
// Ensure endpoint is reloaded if it used the default mode and the ClientCertificateMode changed.
endpoint.ClientCertificateMode = ConfigurationReader.EndpointDefaults.ClientCertificateMode;
}
// A cert specified directly on the endpoint overrides any defaults.
var(serverCert, fullChain) = CertificateConfigLoader.LoadCertificate(endpoint.Certificate, endpoint.Name);
httpsOptions.ServerCertificate = serverCert ?? httpsOptions.ServerCertificate;
httpsOptions.ServerCertificateChain = fullChain ?? httpsOptions.ServerCertificateChain;
if (httpsOptions.ServerCertificate == null && httpsOptions.ServerCertificateSelector == null)
{
// Fallback
Options.ApplyDefaultCert(httpsOptions);
// Ensure endpoint is reloaded if it used the default certificate and the certificate changed.
endpoint.Certificate = DefaultCertificateConfig;
}
}
// Now that defaults have been loaded, we can compare to the currently bound endpoints to see if the config changed.
// There's no reason to rerun an EndpointConfigurations callback if nothing changed.
var matchingBoundEndpoints = endpointsToStop.Where(o => o.EndpointConfig == endpoint).ToList();
if (matchingBoundEndpoints.Count > 0)
{
endpointsToStop.RemoveAll(o => o.EndpointConfig == endpoint);
Options.ConfigurationBackedListenOptions.AddRange(matchingBoundEndpoints);
continue;
}
if (EndpointConfigurations.TryGetValue(endpoint.Name, out var configureEndpoint))
{
var endpointConfig = new EndpointConfiguration(https, listenOptions, httpsOptions, endpoint.ConfigSection);
configureEndpoint(endpointConfig);
}
// EndpointDefaults or configureEndpoint may have added an https adapter.
if (https && !listenOptions.IsTls)
{
if (endpoint.Sni.Count == 0)
{
if (httpsOptions.ServerCertificate == null && httpsOptions.ServerCertificateSelector == null)
{
throw new InvalidOperationException(CoreStrings.NoCertSpecifiedNoDevelopmentCertificateFound);
}
listenOptions.UseHttps(httpsOptions);
}
else
{
var sniOptionsSelector = new SniOptionsSelector(endpoint.Name, endpoint.Sni, CertificateConfigLoader,
httpsOptions, listenOptions.Protocols, HttpsLogger);
var tlsCallbackOptions = new TlsHandshakeCallbackOptions()
{
OnConnection = SniOptionsSelector.OptionsCallback,
HandshakeTimeout = httpsOptions.HandshakeTimeout,
OnConnectionState = sniOptionsSelector,
};
listenOptions.UseHttps(tlsCallbackOptions);
}
}
listenOptions.EndpointConfig = endpoint;
endpointsToStart.Add(listenOptions);
Options.ConfigurationBackedListenOptions.Add(listenOptions);
}
return(endpointsToStop, endpointsToStart);
}