public ActionResult GetFieldOptionsStore() { return(Json(new { results = (from c in Enums.Get <BindingFieldOptions>().AsQueryable() select new { OptionName = Enum.GetName(typeof(BindingFieldOptions), c), OptionValue = (int)c } ) })); }
public ActionResult GetConnectorTypeStore() { return(Json(new { results = (from c in Enums.Get <ConnectorType>().AsQueryable() select new { ConnectorTypeName = Enum.GetName(typeof(ConnectorType), c), ConnectorType = (int)c } ) })); }
public ActionResult GetSystemTypeStore() { return(Json(new { results = (from c in Enums.Get <ConnectorSystemType>().AsQueryable() select new { ConnectorSystemTypeName = c.ToString(), ConnectorSystemType = (int)c } ) })); }
public ActionResult GetOutboundMessageTypes() { return(Json(new { results = (from c in Enums.Get <OutboundMessageTypeEnum>().AsQueryable() select new { OutboundMessageTypeName = c.ToString(), OutboundMessageTypeID = (int)c } ) })); }
public ActionResult GetConnectorTypes() { return(Json(new { connectorTypes = (from c in Enums.Get <ConnectorTypeEnum>().AsQueryable() select new { ConnectorTypeName = c.ToString(), ConnectorTypeID = (int)c } ) })); }
public ActionResult GetXtractTypes() { return(Json(new { xtractTypes = (from c in Enums.Get <XractTypeEnum>().AsQueryable() select new { XtractTypeName = c.ToString(), XtractTypeID = (int)c } ) })); }
public ActionResult GetFtpTypes() { return(Json(new { results = (from c in Enums.Get <FtpTypeEnum>().AsQueryable() select new { FtpTypeName = c.ToString(), FtpTypeID = (int)c } ) })); }
public ActionResult GetAccountPrivileges() { return(Json(new { results = (from c in Enums.Get <AccountPrivilegesEnum>().AsQueryable() select new { AccountPrivilegeName = c.ToString(), AccountPrivilegeID = (int)c } ) })); }
public IActionResult GetLogTypeEnum() { return(Ok(Enums.Get <LogTypeEnum>())); }
public IActionResult GetSystemInstanceStatusEnum() { return(Ok(Enums.Get <SystemInstanceStatusEnum>())); }
public IActionResult GetServerOSEnum() { return(Ok(Enums.Get <ServerOSEnum>())); }
public IActionResult GetApplicationCategoryEnum() { return(Ok(Enums.Get <ApplicationCategoryEnum>())); }
public IActionResult GetApplicationStageEnum() { return(Ok(Enums.Get <ApplicationStageEnum>())); }
public IActionResult GetApplicationOriginEnum() { return(Ok(Enums.Get <ApplicationOriginEnum>())); }
public IActionResult GetCharacteristicDefinition() { return(Ok(Enums.Get <CharacteristicDefinition>())); }
public override void ExecuteResult(ControllerContext context) { ValidationEventHandler validator = delegate(object sender, ValidationEventArgs e) { // TODO : validating the schema. Does this matter? }; XNamespace ns = "DAV:"; string input = new StreamReader(context.HttpContext.Request.InputStream).ReadToEnd(); XDocument doc = XDocument.Parse(input); doc.Validate(_schemas, validator); int depth = -1; if (context.HttpContext.Request.Headers["Depth"] == null) { _depth = Headers.Depth.One; //If not specified, RFC4918 says anticipate "Infinity". // Also says Infinity may be disallowed for performance, so covert to 1 } else if (Int32.TryParse(context.HttpContext.Request.Headers["Depth"], out depth)) { if (depth == 0) { _depth = Headers.Depth.Zero; } else if (depth == 1) { _depth = Headers.Depth.One; } else { throw new ArgumentOutOfRangeException("Header DEPTH has an invalid value. Expected values are \"0\", \"1\", or \"Infinity\"."); } } else { _depth = Headers.Depth.One; //probably said infinity, but we do 1 for performance } string _path = context.HttpContext.Request.Path; XElement xlPropFind = doc.Elements(ns + "propfind").FirstOrDefault(); if (xlPropFind != null) { XElement node = null; // Return specific properties if ((node = xlPropFind.Element(ns + "prop")) != null) { // A list of requested properties List <PropertyName> properties = (from p in node.Descendants() select new PropertyName(p.Name.NamespaceName, p.Name.LocalName)).ToList(); IEnumerable <IHierarchyItem> items = _engine.GetResources(new List <string>() { _path }, properties, _depth); FillOutProperties(items, properties); XNamespace davNS = XNamespace.Get("DAV:"); XElement multistatus = new XElement(davNS + "multistatus", new XAttribute(XNamespace.Xmlns + "D", davNS)); // Each resource is a different "DAV:response" line foreach (IHierarchyItem item in items) { XElement response = new XElement(davNS + "response" , new XElement(davNS + "href", item.Path)); // each status is unique within the response/resource foreach (PropertyValue.Status status in Enums.Get <PropertyValue.Status>()) { if (item.Properties.Count(r => r.Value.PropertyStatus == status) > 0) { XElement propstat = new XElement(davNS + "propstat", from p in item.Properties.Where(p => p.Value.PropertyStatus == status) join pr in properties on p.Key equals pr select new XElement(davNS + "prop", new XElement(XNamespace.Get(p.Key.Namespace) + p.Key.Name, p.Value.Value) //property ) //end prop , new XElement(davNS + "status", StatusCodes.GetHttpCode((int)status)) ); //end propstat response.Add(propstat); } } multistatus.Add(response); } context.HttpContext.Response.StatusCode = 207; context.HttpContext.Response.AppendHeader("Content-Type", "application/xml"); using (StreamWriter sw = new StreamWriter(context.HttpContext.Response.OutputStream)) { sw.Write(multistatus.ToString()); } } // Retrieve all property names else if ((node = xlPropFind.Element(ns + "propname")) != null) { } // Retrieve "allprop" else if ((node = xlPropFind.Element(ns + "allprop")) != null) { // search for the "include" } } }