We have worked on several Silverlight Line of Business applications that require storing documents and files in a secure environment. There are several ways to accomplish this but one approach that has been successful for us is to store the documents using FILESTREAM Storage in SQL Server 2008. 

This is the first of three articles which will describe how you can create a Silverlight LOB application that stores and displays documents using FILESTREAM Storage in SQL Server 2008. 

1. Configuring FILESTREAM in your database and WCF RIA Services setup. 
2. Uploading and Saving files to the database from a Silverlight LOB application. 
3. Viewing files stored in the FILESTREAM from a Silverlight LOB application. 

Configuring FILESTREAM in you database

The first thing I would recommend is to read about FILESTREAM. Here is a tutorial which describes FILESTREAM. 

Okay, now that you read the entire white paper we are ready to roll! 

Setting up your database

Your database needs to enable FILESTREAM on the instance of the SQL Server Database Engine. 

Now that the FILESTREAM is enabled for the server you need to configure your database.

The basic steps include: 

1. Create a Filegroup of type Filestream

2. Create a File for the new Filestream Group

Now that your  database can handle FILESTREAM, the next is to create the SQL Tables that will store documents using the FILESTREAM. In this example I will be using three tables:

- File - storage for the document via the FILESTREAM
- Document - metadata about the File
- Folder - Virtual folder for the document

File table script

CREATE TABLE [dbo].[File]( [FileID] [int] IDENTITY(1,1) NOT NULL, [DocumentFileId] [uniqueidentifier] ROWGUIDCOL NOT NULL, [DocumentFile] [varbinary](max) FILESTREAM NULL, CONSTRAINT [File_PK] PRIMARY KEY CLUSTERED ( [FileID] ASC )WITH (PAD_INDEX = OFF, STATISTICS_NORECOMPUTE = OFF, IGNORE_DUP_KEY = OFF, ALLOW_ROW_LOCKS = ON, ALLOW_PAGE_LOCKS = ON) ON [PRIMARY] FILESTREAM_ON [FileStreamGroup1], UNIQUE NONCLUSTERED ( [DocumentFileId] ASC )WITH (PAD_INDEX = OFF, STATISTICS_NORECOMPUTE = OFF, IGNORE_DUP_KEY = OFF, ALLOW_ROW_LOCKS = ON, ALLOW_PAGE_LOCKS = ON) ON [PRIMARY] ) ON [PRIMARY] FILESTREAM_ON [FileStreamGroup1]

One thing we have found is that you only want to access the File table when you are ready to display the document. If you include this table in RIA Service Domain Service it will really slow things down—a lot. That is why we separated the metadata from the FILESTREAM into two tables - File and Document. 

Document table

You can add as many columns for metadata as needed for your project.  

A few things to notice:

1. This table contains a description and some metadata about the file. We use this table to bind a list of documents in a treeview or gridview control.
2. The guid field is used to create a second unique field. More to come on this in part 3.
3. Path will store the actual file name (e.g. MyDocument.pdf). We need this field so we can determine the type of file that is stored in the database (more on this in part 3).
4. FolderID points to a Folder table (see below). We use this table to organize documents in Folders.

Folder table

We use the ParentFolderID to enable nested folders.  

Okay, now our database is configured for FILESTREAM and we have the necessary tables to store documents. We are creating a Silverlight LOB application using WCF RIA Services, so assuming we already have our Silverlight project created our next steps will be:

1. Add/Update Entity Framework Entity Data Model (*.edmx) in the project. Include the File, Document, and Folder tables.
2. Add/Update Domain Service class and metadata for the three tables.

Tip - I like to include two methods when returning a Document. One that includes the File (i.e. Heavy version) and one that does not include the File (i.e. Lightweight version). This gives me flexibility on the client side. 

public Document GetDocumentById(int documentId) { return this.ObjectContext.Documents.Where(d => d.DocumentID == documentId).FirstOrDefault(); } public Document GetDocumentWithFileById(int documentId) { return this.ObjectContext.Documents.Include("File") .Where(d => d.DocumentID == documentId).FirstOrDefault(); }

To get a list of documents for a folder I use the following query. This can be bound to a gridview control. 

public IQueryable GetDocumentsByFolderId(int folderId) { return this.ObjectContext.Folders .Include("Document") .Where(f => f.FolderID == folderId).OrderByDescending(com => com.Document.CreatedDate); } 

Introduction

Silverlight is evolving with a lot of new features in each and every version release. The AutoComplete text feature is one such example. In this article I will demonstrate the implementation of the AutoComplete text feature in a Silverlight application. I will also create a sample Silverlight application to help explain the code. I have used Silverlight 4.0 and Visual Studio 2010 for developing the sample application.

AutoComplete Functionality

AutoComplete text functionality is not only a fancy effect but it's also a pretty useful feature from a user prospective and this feature is available in most of the latest applications. As the user enters text in a text box, a list of values gets populated and are listed in a similar fashion to that of a drop down based on the entered text. So the user is able to see the possible suggestions and can select a value from them or they also have the freedom to enter their own text as the base control is a textbox.

Some popular websites implementing the auto complete functionality are www.google.com,www.youtube.com, etc.,

Silverlight AutoCompleteBox Control

Implementing the autocomplete functionality in a Silverlight application is pretty straight forward because of the availability of the AutoCompleteBox control. This control is available in Silverlight 3.0 and higher versions. The developer only needs to set the ItemSource property of the AutoCompleteBox control with the value collection that is to be listed. The rest will be taken care by the control itself. 

Below are some of the useful settings that can be leveraged from the AutoCompleteBox control.

1. FilterMode – Specifies the filter mode to display the data (StartsWith, Contains, Equals, etc.,)
2. MinimumPrefixLength – Minimum prefix length for the auto complete feature to be triggered
3. MaxDropDownHeight – Maximum height of the dropdown
4. IsTextCompletionEnabled – If set to true then the first match found during the filtering process will be populated in the TextBox

Silverlight AutoCompleteBox Implementation

In this section we will create a sample Silverlight window implementing the autocomplete text feature. In the MainWindow.xaml add an AutoCompleteBox control and set the basic properties. Below is the code:

<UserControl xmlns:sdk="http://schemas.microsoft.com/winfx/2006/xaml/presentation/sdk"  
    x:Class="AutoCompleteBoxSample.MainPage"
    xmlns=http://schemas.microsoft.com/winfx/2006/xaml/presentation
    xmlns:x=http://schemas.microsoft.com/winfx/2006/xaml
    xmlns:d=http://schemas.microsoft.com/expression/blend/2008
    xmlns:mc=http://schemas.openxmlformats.org/markup-compatibility/2006
    mc:Ignorable="d"
    d:DesignHeight="300" d:DesignWidth="400">

    <Grid x:Name="LayoutRoot" Background="White">
        <Canvas>
            <sdk:Label Content="Enter the city: " Margin="46,76,264,198" />
            <sdk:AutoCompleteBox Height="28" HorizontalAlignment="Left" Margin="142,77,0,0" FilterMode="StartsWith"
MinimumPrefixLength="1" MaxDropDownHeight="80" Name="autoCompleteBox1" VerticalAlignment="Top" Width="120"
Canvas.Left="-6" Canvas.Top="-5" />
        </Canvas>
    </Grid>
</UserControl>

namespace AutoCompleteBoxSample
{
    public partial class MainPage : UserControl
    {
        List<string> _cities;

        public MainPage()
        {
            InitializeComponent();
            autoCompleteBox1.ItemsSource = PopulateCities();
        }

        private IEnumerable PopulateCities()
        {
            _cities = new List<string>();
            _cities.Add("Boston");
            _cities.Add("Bangalore");
            _cities.Add("Birmingham");
            _cities.Add("Auckland");
            _cities.Add("Amsterdam");
            _cities.Add("Aspen");
            return _cities;
        }
    }
}

Run the application and you will see the figure below:

Using a DomainDataSource

In the above case we had the data directly in the application and it was hence hard-coded. In case if the data lies in the database, then the WCF RIA service and the DomainDataSource comes into play. Create a WCF RIA service and hook up the service to expose the data in the table through a generated data context method. Use a DomainDataSource to act as an ItemSource for the AutoCompleteBox control.

Below is the XAML code:

<Canvas>
     <riaControls:DomainDataSource AutoLoad="True"
                                      QueryName="GetCities"
                                      x:Name="CityDataSource">
          <riaControls:DomainDataSource.DomainContext>
                    <web:MyDatabaseContext />
          </riaControls:DomainDataSource.DomainContext>
     </riaControls:DomainDataSource>
     <sdk:Label Content="Enter the city: " Margin="46,76,264,198" />
<sdk:AutoCompleteBox Height="28" ItemsSource="{Binding Data, ElementName=CityDataSource}"
HorizontalAlignment="Left" Margin="142,77,0,0" FilterMode="StartsWith" MinimumPrefixLength="1" MaxDropDownHeight="80"
Name="autoCompleteBox1" VerticalAlignment="Top" Width="120" Canvas.Left="-6" Canvas.Top="-5" />
</Canvas>

One of the many interesting new features in Silverlight 5 RC is the ability for elevated trust applications (in-browser as well as out-of-browser) to access native DLL:s via P/Invoke.
Some interesting application examples are given here and here. These examples show how easy it is to access system DLL:s such as user32.dll, kernel32.dll and psapi.dll. However, the issue appears to be more complex when it comes to native DLL:s that are not automatically available on the system.
Ideally (I think), you would like to bundle the native third party DLL:s as Content in the XAP file, and the XAP file would be artificially included in the P/Invoke search path. Unfortunately, this is not the way it works today. When I bundle my third-party native DLL as Content in my Silverlight 5 RC application, and try to access one of its methods via the following declaration,

[DllImport("NativeDll")]

public static extern int add(int a, int b);
I get a discouraging DllNotFoundException. It does not help if I add the .dll extension to the file name, and I have also not been able to find the DLL by applying any of the pack URI approaches to the DLL file name.
Several people, including myself, have brought up this issue in various forums, but so far I have not seen any published solution to the problem.
Well, as we say in Sweden, "själv är bäste dräng" (which is similar to "if you want something done, do it yourself"), so here is my attempt to solve the problem. Granted, it might not be the most Elegant Solution, but at least it is A Solution.It is important to note that this solution is applicable primarily to Silverlight 5 RC. In the best of worlds, Microsoft will fix the native DLL path issue in the RTM release of Silverlight 5, and then this solution would be superfluous. We'll see what happens in the end.Note also that since P/Invoke is a feature requiring elevated trust, this solution is only relevant to applications running in elevated trust (in- or out-of-browser).

In short, the solution is to bundle the native third party DLL:s as resource files in the Silverlight 5 RC application, and when the application is started copy these DLL:s to a local directory and add the directory to the system path during the execution of the Silverlight application.In more details, here is how it can be done:Add each native third party DLL as an existing item to the root folder or, even more preferably, to an assets sub-folder in the Silverlight 5 RC application project.

In the File Properties window, set Build Action to Resource and Copy to Output Directory to Copy if newer.

The DLL copying and PATH environment variable setting of course requires some additional code. Fortunately :-) I have created a static utility class for this purpose. The class is named NativeDllHelper and can be found it is entirety here. Download and add this file to your Silverlight 5 RC application project.

Next, go to the App.xaml.cs or equivalent file. Add the following using statement.

using Cureos.Utility;

In the Application_Startup (or equivalent) event handler, add the following method call to the first line of the event handler.
NativeDllHelper.SetupNativeDllFolder("relpath/dllname.dll", ...);

where relpath is the path relative to the project root folder where the native DLL:s are located, and dllname is the file name of the DLL. Specify all DLL:s to be copied in one argument list; the SetupNativeDllFolder method should only be called once at start-up to avoid adding duplicate entries of the local DLL directory to the system path.
The native DLL files are copied to a My Documents sub-folder Silverlight\Native. If you prefer a different folder for the DLL:s, edit the static constructor of the NativeDllHelper class.

Here is an example call of SetupNativeDllFolder, copying one file NativeDll.dll located in the Assets sub-folder of the Silverlight 5 RC application project.
NativeDllHelper.SetupNativeDllFolder("Assets/NativeDll.dll");
Having performed these steps, no user intervention is required when running the application, the native methods in the third party DLL:s can simply be invoked using only the file name of the DLL:
[DllImport("NativeDll")]
public static extern int add(int a, int b);

A complete example SL 5 RC application utilizing this functionality can be downloaded from here. Note that it contains a C(++) project for creating the example native DLL.
If you try out the application and get build errors due to copy prevention the first time, building a second time should do the trick. You might also need to manually set the start page of the Web project to the .aspx file.

The application itself is very simple; there is this button

with the following click event handler associated to it:
private void Button_Click(object sender, RoutedEventArgs e)
{
  button.Content = add(5, 7);
}
The add method is a native method, as declared above. Clicking the button leaves us with the following satisfying button update:
And that is basically all that there is to it. The utility method for copying DLL:s from the application resources can most certainly be further improved, for example by more efficiently handling DLL:s already existing locally. With the current implementation, any existing DLL:s are automatically overwritten. All improvement suggestions as well as reports of successes or failures are highly appreciated.

Silverlight boasts several performance enhancements that will improve its speed and scale within the enterprise. The first is the ability to run animations on the composition thread instead of the UI thread.

The UI thread is a dedicated thread that handles input and output for the user interface. It is where much of the rendering computations and actions take place as well as polling for mouse movements and keyboard input. Heavy computations on the UI thread will cause other operations to become blocked and the application to become unresponsive.

The composition thread is a separate thread that was introduced to provide rendering for 3D graphics in Silverlight 5. It can also be used to run animations. This is important because animations usually run on the UI thread. Not only do they take resources from other processes competing for this thread, but also can degrade when there is massive work performed on the thread. By moving certain animations to the composition thread, they can run independently and remain fluid despite processing on the UI thread. Animations are run on this thread when the UI element that is targeted has the cache mode set to BitmapCache and GPU acceleration is enabled for the Silverlight application.

A second enhancement is the provision of a multi-core Just-in Time compile (JIT). This means the Silverlight runtime can generate code more quickly and provide a faster response time on multi-core machines. Additional optimizations of the networking stack have led to reduced network latency, which means better responsiveness when connecting to remote systems. Add to that speed improvements that were made to the XAML parser and you end up with a well performing system that should run faster on the same hardware as compared to its predecessor. According to Microsoft, improvements to the networking thread alone reduce latency by up to 90 percent.

Using Silverlight and XAML, you can bind to a collection of data. Once that is done, you can then sort, filter, or group the data using a collection view. A collection view is similar to a layer on a binding source collection. It enables you to navigate and display the source collection based on queries to sort, filter, and group data, without having to change the underlying source collection itself. If a source collection implements the INotifyCollectionChanged interface, the changes raised by the CollectionChanged event are transmitted to the views. A single source collection can have multiple views associated with it.

I will show brief tutorial about sorting and grouping functionally through the PagedCollectionView class. Consider an example that demonstrates how to sort and group bound data in a collection using an
PagedCollectionView object.

Create a Silverlight application named CollectionsDemo.

Add the following markup to MainPage.xaml.

<UserControl xmlns:sdk="http://schemas.microsoft.com/winfx/2006/xaml/presentation/sdk"
    x:Class="CollectionsDemo.MainPage"
xmlns="http://schemas.microsoft.com/winfx/2006/xaml/presentation"
xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml"
xmlns:d="http://schemas.microsoft.com/expression/blend/2008"
xmlns:mc="http://schemas.openxmlformats.org/markup-compatibility/2006"
xmlns:scm="clr-namespace:System.ComponentModel;assembly=System.Windows"
xmlns:dat="clr-namespace:System.Windows.Data;assembly=System.Windows"
xmlns:local="clr-namespace:CollectionsDemo"
mc:Ignorable="d"
d:DesignHeight="300" d:DesignWidth="400"
> 
<Grid x:Name="LayoutRoot">
    <sdk:DataGrid Name="dgridMovies" ItemsSource="{Binding}" >
            <sdk:DataGrid.RowGroupHeaderStyles>
                <Style TargetType="sdk:DataGridRowGroupHeader">
                    <Setter Property="PropertyNameVisibility" Value="Collapsed" />
                    <Setter Property="Background" Value="PaleGreen"/>
                    <Setter Property="SublevelIndent" Value="25" />
                </Style>
            </sdk:DataGrid.RowGroupHeaderStyles>
        </sdk:DataGrid>
</Grid>
</UserControl>

The above markup creates a DataGrid and sets its ItemsSource property. The markup also sets style for the DataGrid rows.

Add the following code to MainPage.xaml.cs to create the Movies and Movie classes:

using System;
using System.Collections.Generic;
using System.Linq;
using System.Net;
using System.Windows;
using System.Windows.Controls;
using System.Windows.Documents;
using System.Windows.Input;
using System.Windows.Media;
using System.Windows.Media.Animation;
using System.Windows.Shapes;
using System.Collections.ObjectModel;
using System.Windows.Data;
using System.ComponentModel;

namespace CollectionsDemo
{
    public partial class MainPage : UserControl
    {
        public MainPage()
        {
            Movies movies = new Movies();
            InitializeComponent();

            // For sorting
            PagedCollectionView pg = new PagedCollectionView(movies);
            pg.SortDescriptions.Add(new SortDescription("Title", ListSortDirection.Ascending));
            dgridMovies.DataContext = pg;

            // For grouping
            pg.GroupDescriptions.Add(new PropertyGroupDescription("Year"));
            dgridMovies.DataContext = pg;
        }
    }

    // Represents a collection of movies
    public class Movies : ObservableCollection<Movie>
    {
        public Movies()
            : base()
        {
         Add(new Movie() { Title = "Sherlock Holmes - Game of Shadows", Year = "2011" });
         Add(new Movie() { Title = "ParaNormal Activity", Year = "2010" });
         Add(new Movie() { Title = "Michael Clayton", Year = "2010" });
         Add(new Movie() { Title = "A Separation", Year = "2011" });
         Add(new Movie() { Title = "Lost", Year = "2009" });
        }
    }

// Represents a Movie entity having two properties, Title and Year
    public class Movie
    {
        public string Title { get; set; }
        public string Year { get; set; }
    }
}

You will first create a PropertyGroupDescription object and pass the name of the property based on which sorting or grouping will take place. Then, add the PropertyGroupDescription to the SortDescriptions or GroupDescriptions collection of PagedCollectionView depending on which operation is to be performed.

These actions are done using the above code.

On executing, the output will be similar to Figure below. As you can see, the movie details are grouped by year and sorted according to title.

In this post I am going to describe a solution to the following problem.  I would like to create a single WCF Service and expose it via a standard SOAP endpoint and REST endpoint using Entity Framework, WCF and WCF REST.  Then I would like to consume it from WinRT from two different view models working against the same view.  This is an exercise of research into data options in WinRT.

First of, let’s create a service.  I am going to use the following data class:

    public class Session
    {
        public int SessionID { get; set; }
        public string Title { get; set; }
        public string Description { get; set; }
        public string Speaker { get; set; }
        public DateTime When { get; set; }
    }

My data context for EF Code First is just as simple:

    public class Context : DbContext
    {
        public Context() :
            base("Name=VSLive")
        {
        }
        public DbSet<Session> Sessions { get; set; }

        protected override void OnModelCreating(DbModelBuilder modelBuilder)
        {
            base.OnModelCreating(modelBuilder);
            modelBuilder.Entity<Session>().Property(p => p.Title).HasMaxLength(100).IsRequired();
            modelBuilder.Entity<Session>().Property(p => p.Speaker).HasMaxLength(50).IsRequired();
            modelBuilder.Entity<Session>().Property(p => p.Description).IsRequired();
            modelBuilder.Entity<Session>().Property(p => p.When).IsRequired();
        }
    }

Now, the service.  I am just going to perform basis CRUD opertions.  The key to the service is my interface that I am going to decorate with both SOAP(OperationContract) and REST(WebGet or WebInvoke) attributes.

    [ServiceContract]

    public interface IVSLiveService
    {
        [OperationContract]
        [WebGet(UriTemplate = "/GetList", RequestFormat = WebMessageFormat.Json, ResponseFormat = WebMessageFormat.Json)]
        Session[] GetList();

        [OperationContract]
        [WebInvoke(UriTemplate = "/Create", RequestFormat = WebMessageFormat.Json, ResponseFormat = WebMessageFormat.Json)]
        Session Create(Session session);


        [OperationContract]
        [WebInvoke(UriTemplate = "/Update", RequestFormat = WebMessageFormat.Json, ResponseFormat = WebMessageFormat.Json)]
        Session Update(Session session);

        [OperationContract]
        [WebInvoke(UriTemplate = "/Delete?sessionId={sessionId}", RequestFormat = WebMessageFormat.Json, ResponseFormat = WebMessageFormat.Json)]
        void Delete(int sessionId);

    }

The implementation is not quite as interesting, but for the same of completeness of this post, here it goes:

using System.Data.Entity;
using System.Linq;
using System.ServiceModel;
using System.ServiceModel.Activation;
using WinRT.Data;
using WinRT.DataAccess;

namespace WcfService
{
    [AspNetCompatibilityRequirements(
      RequirementsMode = AspNetCompatibilityRequirementsMode.Allowed)]
    [ServiceBehavior(InstanceContextMode = InstanceContextMode.PerCall)]
    public class VSLiveService : IVSLiveService
    {
        public VSLiveService()
        {
            Database.SetInitializer(new Initializer());
        }

        public Session[] GetList()
        {
            using (var context = new Context())
            {
                context.Configuration.LazyLoadingEnabled = false;
                context.Configuration.ProxyCreationEnabled = false;
                return context.Sessions.ToArray();
            }
        }

        public Session Create(Session session)
        {
            using (var context = new Context())
            {
                context.Sessions.Add(session);
                context.SaveChanges();
            }
            return session;
        }


        public Session Update(Session session)
        {
            using (var context = new Context())
            {
                context.Entry(session).State = System.Data.EntityState.Modified;
                context.SaveChanges();
            }
            return session;
        }

        public void Delete(int sessionID)
        {
            using (var context = new Context())
            {
                var session = new Session { SessionID = sessionID };
                context.Entry(session).State = System.Data.EntityState.Deleted;
                context.SaveChanges();
            }
        }
    }
}

Now, the part that took me the longest to figure out: web.config.

I have single service node, and I have two endpoints for it, using the same contract, but two different bindings and behaviors.  I am putting entire web.config:

<?xml version="1.0"?>
<configuration>
  <connectionStrings>
    <add
          name="VSLive"
          connectionString="Server=.;Database=VSLive;Trusted_Connection=True;"
          providerName="System.Data.SqlClient"/>
  </connectionStrings>

  <system.web>
    <compilation debug="true" targetFramework="4.0" />
  </system.web>
  <system.serviceModel>
    <behaviors>
      <endpointBehaviors>
        <behavior name="jsonBehavior">
          <webHttp/>
        </behavior>
      </endpointBehaviors>    
      <serviceBehaviors>
        <behavior>
          <!-- To avoid disclosing metadata information, set the value below to false and remove the metadata endpoint above before deployment -->
          <serviceMetadata httpGetEnabled="true"/>
          <!—To receive exception details in faults for debugging purposes, set the value below to true.  Set to false before deployment to avoid disclosing exception information -->
          <serviceDebug includeExceptionDetailInFaults="true"/>
        </behavior>
      </serviceBehaviors>
    </behaviors>
    <bindings>
      <basicHttpBinding>
        <binding
          name="VSLiveService_BasicHttpBinding"
          maxBufferSize="1000000"
          maxReceivedMessageSize="1000000">
          <readerQuotas
            maxBytesPerRead="1000000"
            maxArrayLength="1000000"
            maxDepth="1024"
            maxStringContentLength="1000000"/>
        </binding>
      </basicHttpBinding>
      <webHttpBinding>
        <binding
           name="VSLiveService_WebHttpBinding"
           maxBufferSize="1000000"
           maxReceivedMessageSize="1000000">
          <readerQuotas
            maxBytesPerRead="1000000"
            maxArrayLength="1000000"
            maxDepth="1024"
            maxStringContentLength="1000000"/>
        </binding>
      </webHttpBinding>

    </bindings>
    <services>
      <service name="WcfService.VSLiveService">
        <endpoint
          address="soap"
          binding="basicHttpBinding"
          bindingConfiguration="VSLiveService_BasicHttpBinding"
          contract="WcfService.IVSLiveService"/>
        <endpoint
            address="rest"
            binding="webHttpBinding"
            behaviorConfiguration="jsonBehavior"
            bindingConfiguration="VSLiveService_WebHttpBinding"
            contract="WcfService.IVSLiveService"/>
      </service>
    </services>
    <serviceHostingEnvironment multipleSiteBindingsEnabled="true" />
  </system.serviceModel>
  <system.webServer>
    <modules runAllManagedModulesForAllRequests="true"/>
  </system.webServer>
  <system.diagnostics>
    <sources>
      <source name="System.ServiceModel"
              switchValue="Information, ActivityTracing"
              propagateActivity="true">
        <listeners>
          <add name="traceListener"
              type="System.Diagnostics.XmlWriterTraceListener"
              initializeData= "c:\Traces.svclog" />
        </listeners>
      </source>
    </sources>
  </system.diagnostics>
</configuration>

As you can see above, SOAP endpoint comes first, and it is using basicHttpBinding.  My REST endpoint is second, and it is using webHttpBinding  I am asing a behavior configuration to the latter one, enabling webHttp get/post methods.

This is all nice and simple, and you can now test it in browser.

Today, I am documenting REST consumption.

I am using HttpClient class to accomplish this task.  For example, here is how I am going to get the list of sessions.

        public async Task LoadData()
        {
            IsBusy = true;
            _client = new HttpClient();
            _client.MaxResponseContentBufferSize = int.MaxValue;
            var response = await _client.SendAsync(new HttpRequestMessage(HttpMethod.Get, new Uri(_serviceUri + "GetList")));

            var data = response.Content.ReadAsString();

            DataContractJsonSerializer serializer = new DataContractJsonSerializer(typeof(List<Session>));
            using (var stream = new MemoryStream(Encoding.UTF8.GetBytes(data)))
            {
                var list = serializer.ReadObject(stream) as List<Session>;
                Sessions = new ExtendedObservableCollection<Session>(list);
            }
            IsBusy = false;
        }

A few points about the code above.  I should have wrapped the call inside Try/Catch, I am just skipping it for the sake of a demo and to minimize the code I am showing.  I am using standard serializer to convert my JSON message into an object.  I also have a little progress ring that is playing while server communication is going on, and that is what my IsBusy property above is bound to. 

Now, let’s take a look at Create/Update call.  It is just as simple, but I am using Post method of HttpClient and I am creating a string content to post by converting Session object to JSON, again using the same serializer.

        public async void OnSave(object parameter)
        {
            if (SelectedSession != null)
            {
                IsBusy = true;
                string method = "Update";
                if (selectedSession.SessionID == 0)
                {
                    method = "Create";
                }
                _client = new HttpClient();
                _client.MaxResponseContentBufferSize = int.MaxValue;
                var content = new StringContent(ConvertSessionToJson());
                content.Headers.ContentType = new System.Net.Http.Headers.MediaTypeHeaderValue("application/json");
                var response = await _client.PostAsync(new Uri(_serviceUri + method), content);

                var data = response.Content.ReadAsString();

                var session = ConvertJsonToSession(data);
                Sessions[Sessions.IndexOf(selectedSession)] = session;
                SelectedSession = session;
                IsBusy = false;
            }
        }

For delete method I am also using Post method, just my content is blank and my ID is passed to the server as query string parameter

        public async void OnDelete(Session parameter)
        {
            if (parameter != null)
            {
                if (parameter.SessionID > 0)
                {
                    IsBusy = true;
                    _client = new HttpClient();
                    _client.MaxResponseContentBufferSize = int.MaxValue;
                    var content = new StringContent(string.Empty);
                    content.Headers.ContentType = new System.Net.Http.Headers.MediaTypeHeaderValue("application/json");
                    var response = await _client.PostAsync(new Uri(_serviceUri + "Delete?sessionId=" + parameter.SessionID.ToString()), content);

                    var data = response.Content.ReadAsString();
                    Sessions.Remove(parameter);
                    IsBusy = false;
                }
                else
                {
                    Sessions.Remove(parameter);
                    IsBusy = false;
                }
            }
        }

Maybe there is a working solution for this already out there, but I created my own Silverlight Behavior for a basic TextBox Watermark which might be useful.

I wanted to use it like this in my XAML (look at the behaviors tag):

<TextBlock Margin="5">Watermarked textbox:</TextBlock>
<TextBox Margin="5">
    <Interactivity:Interaction.Behaviors>
        <local:Watermark Text="Watermark" Foreground="LightGray" />
    </Interactivity:Interaction.Behaviors>
</TextBox>

The result should be something like this:

To create a Behavior for Silverlight, you must get hold of the System.Windows.Interactivity assembly which ships with Expression Blend. In my system it’s located at:

c:\Program Files (x86)\Microsoft SDKs\Expression\Blend\Silverlight\v4.0\Libraries\System.Windows.Interactivity.dll

And the code for the Behavior:

public class Watermark : Behavior<TextBox>
{
    private bool _hasWatermark;
    private Brush _textBoxForeground;
 
    public String Text { get; set; }
    public Brush Foreground { get; set; }
 
    protected override void OnAttached()
    {
        _textBoxForeground = AssociatedObject.Foreground;
 
        base.OnAttached();
        if (Text != null)
            SetWatermarkText();
        AssociatedObject.GotFocus += GotFocus;
        AssociatedObject.LostFocus += LostFocus;
    }
 
    private void LostFocus(object sender, RoutedEventArgs e)
    {
        if (AssociatedObject.Text.Length == 0)
            if (Text != null)
                SetWatermarkText();
    }
 
    private void GotFocus(object sender, RoutedEventArgs e)
    {
        if (_hasWatermark)
            RemoveWatermarkText();
    }
 
    private void RemoveWatermarkText()
    {
        AssociatedObject.Foreground = _textBoxForeground;
        AssociatedObject.Text = "";
        _hasWatermark = false;
    }
 
    private void SetWatermarkText()
    {
        AssociatedObject.Foreground = Foreground;
        AssociatedObject.Text = Text;
        _hasWatermark = true;
    }
 
    protected override void OnDetaching()
    {
        base.OnDetaching();
        AssociatedObject.GotFocus -= GotFocus;
        AssociatedObject.LostFocus -= LostFocus;
    }
}

Like so many Watermark-solutions out there I’m hooking into the GotFocus/LostFocus events and to the work there. Works for me.

This blog cover brief information how to host your WCF service in IIS8 (Windows Server 2012).

Here is the solution.

Server Roles

1. First make sure you have enabled IIS function and .net 3.5 in Features.
For the IIS features, please remember to enable ASP.NET3.5 and ASP.NET 4.5

2. Second, check the IIS Hostable WebCore
3. Finally, I think the most important is this:

Check Application Sever->Web Server (IIS) Support

I have also check the HTTP Activation in Windows Process Activation Service Support, but I do not know if it is required.

For the freatures,

1. Check all items in .NET 3.5
2. Check WCF Service in .NET 4.5

That’s it.

Last but not least, I have register the WCF Service from

C:\Windows\Microsoft.NET\Framework\v3.0\Windows Communication Foundation\ServiceModelReg.exe –i

Run the above in command line.

In this article we will be seeing how to create Silverlight BlurEffect using Visual studio 2010.

Pixel shader effects in Silverlight allows you to add effects, such as gray scale, red eye removal, pixel brightness, and shadows, to rendered objects. There are two types of Pixel Shader effects in Silverlight. They are BlurEffect and DropShadowEffect. In this we will be seeing about BlurEffect and its properties.

Namespace: System.Windows.Media. Effects

Assembly: System.Windows

BlurEffect:

BlurEffect is used to represent an effect that we can apply to an object that simulates looking at the object through an out-of-focus lens. It is defined by the Radius property.

Radius:

This property is used to specify the amount of blur to apply to an object.

Without BlurEffect:

<Canvas Height="200" Width="200" Background="white">
        <Rectangle Height="50" Width="50" Fill="Orange" Canvas.Left="25" Canvas.Top="75"></Rectangle>
        <Rectangle Height="50" Width="50" Fill="White" Canvas.Left="75" Canvas.Top="75"></Rectangle>
        <Rectangle Height="50" Width="50" Fill="Green" Canvas.Left="125" Canvas.Top="75"></Rectangle>
</Canvas>

With BlurEffect:

<Canvas Height="200" Width="200" Background="white">
        <Canvas.Effect>
            <BlurEffect Radius="120"></BlurEffect>
        </Canvas.Effect>   
        <Rectangle Height="50" Width="50" Fill="Orange" Canvas.Left="25" Canvas.Top="75"></Rectangle>
        <Rectangle Height="50" Width="50" Fill="White" Canvas.Left="75" Canvas.Top="75"></Rectangle>
        <Rectangle Height="50" Width="50" Fill="Green" Canvas.Left="125" Canvas.Top="75"></Rectangle>
</Canvas>

Steps Involved:

Creating a Silverlight Application:

- Open Visual Studio 2010. 
- Go to File => New => Project. 
- Select Silverlight from the Installed templates and choose the Silverlight Application template. 
- Enter the Name and choose the location. 
- Click OK. 
- In the New Silverlight Application wizard check the "Host the Silverlight Application in a new Web site". 
- Click OK.

Creating the UI:

Open MainPage.xaml file and replace the code with the following.

<UserControl x:Class="SilverlightBlurEffect.MainPage"
    xmlns=http://schemas.microsoft.com/winfx/2006/xaml/presentation
    xmlns:x=http://schemas.microsoft.com/winfx/2006/xaml
    xmlns:d=http://schemas.microsoft.com/expression/blend/2008
    xmlns:mc=http://schemas.openxmlformats.org/markup-compatibility/2006
    mc:Ignorable="d"
    d:DesignHeight="300" d:DesignWidth="400">
    <Canvas Height="200" Width="200" Background="white">
        <Canvas.Effect>
            <BlurEffect Radius="120"></BlurEffect>
        </Canvas.Effect>   
        <Rectangle Height="50" Width="50" Fill="Orange" Canvas.Left="25" Canvas.Top="75"></Rectangle>
        <Rectangle Height="50" Width="50" Fill="White" Canvas.Left="75" Canvas.Top="75"></Rectangle>
        <Rectangle Height="50" Width="50" Fill="Green" Canvas.Left="125" Canvas.Top="75"></Rectangle>
    </Canvas>
</UserControl>

To test it, please just build the solution and hit CTRL+F5

In this tutorial I will show you how to enable dynamic compression in IIS 7. For other post of dynamic compression, please just see our last post.

You’ll see this error message when you haven’t setup dynamic compression on your IIS:

“The dynamic content compression module is not installed.”

Ok, let’s start the tutorial:

1. Open server manager

2. Roles --> IIS

3. Role Services (scroll down) --> Add Role Services

4. Add desired role (Web Server --> Performance > Dynamic Content Compression)

5. Wait till finish.

To enable this feature, here are the steps:

1. Open server manager

2. Roles --> Web Server (IIS) --> Internet Information Services (IIS) Manager

3. Then, go to your site --> your website

4. IISà compression

And dynamic compression has been enable on your server. Hope this tutorial is interesting.