A “useful” help page for ModelStateDictionary.AddModelError()?

Just tried to use Microsoft’s online documentation for ModelStateDictionary.AddModelError(). The following picture is a screen shot as of 30 June 2010:

Yes, that’s all. This page could be generated by a piece of software (maybe it was?). There is no useful information in this beyond what I can derived from the method signature in the first place.

I wonder: What is the value of this page?

There was a time a few years ago when Microsoft MSDN documentation was orders of magnitudes better and even had some meaningful examples. Today, it appears that we are increasingly relying on the “community” to make up for the lack of sufficient document by the vendor. This is disappointing.

Disable Disk Defragmenter on Windows Vista

Ok, this is not a .NET topic at all. Still. This problem got increasingly annoying on my Vista laptop. Upon each reboot, and at least once a day even without reboot, disk defragmenter kicked in and analyzed the disk (“Analyzing disk”). Each time it would say this would take “a few minutes”. However, I always had more than enough time to go fetch a coffee.

Of course I found all the recommendations regarding switching off the schedule and also go to the scheduled tasks and disable the one or two defrag related tasks. I also found the hint that changing certain registry values would help. And still, upon each reboot and even without reboot at least once a day disk defragmenter couldn’t help itself to at least analyze the disks even if it wouldn’t do the defragmentation itself. If would do so even if it came to the conclusion about 15 minutes ago that the hard drives would need to be defragmented.

So, here is what I did to disable disk defragmenter from running:

• I opened explorer and navigated to \windows\system32
• I took ownership of “dfrgntfs.exe”
• Then I added myself with full permissions to the file
• Finally I renamed the file to “dfrgntfs.exe_”

And now it has finally stopped re-analyzing the disks. I understand that it is useful to do that occasionally. But every 15 minutes? How much data can I possible write to the hard disk that this interval is justified?

And if I ever feel like defragmenting my hard disk(s) I just rename it back to its original name and run it manually.

Formatting Source Code for Blogger.com (and other blog sites)

When you search the net for a solution to formatting source code for your blog there won’t be a shortage of hits. I’ve tried quite a large number of them only to be disappointed.

The best option I’ve found so far is this syntax highlighting tutorial. It uses a hosted version of Alex Gorbatchev’s SyntaxHighlighter, which has gained a lot of popularity (e.g. ASP.NET forums).

Here is an example for how your source code looks like once you’ve set everything up:

using System.Net.Mail;

public class EmailHelper {
   private static void SendEmail(string from, string to, string subject, string body) {
      var message = new MailMessage(from, to, subject, body);
      using (var smtpClient = new SmtpClient()) {
         smtpClient.Send(message);
      }
   }
}

And your XML code would look as follows (note the error in the multi-line comment, at time of publishing this post):

<system.net>
   <mailSettings>
      <!-- Setting for release (need to update account settings): -->
      <!--<smtp deliveryMethod="Network">
         <network host="mail.mydomain.com" port="25" />
      </smtp>-->
      
      <!-- Setting for development (uses ssfd.codeplex.com): -->
      <smtp deliveryMethod="SpecifiedPickupDirectory">
         <specifiedPickupDirectory pickupDirectoryLocation="C:\data\Temp" />
      </smtp>
   </mailSettings>
</system.net>

After some more searching I then found PreCode, yet another plug-in for Windows Live Writer (WLW). PreCode also supports SyntaxHighlighter.

When you use PreCode, it will also take care of the angle brackets as they need to be substituted so they are not interpreted as HTML.

Finally I seem to have found a solution that allows me to work seamlessly.

Here are the bits for this solution:

• SyntaxHighlighter: See Alex Gorbetchev’s web site for more details, and check the syntax highlighting tutorial for how to set up your blog / web site.
• PreCode: Download Precode from codeplex and install. Restart WLW.

The only thing missing – but I can live with that for the moment: The code is displayed in Edit and Preview mode in WLW but not highlighted. PreCode’s web site explains why.

How To Test Sending an Email in .NET?

Sending an email can be tested in many different ways. One option could be setting up an account with an online email provider (Yahoo, Hotmail, Google etc.) and then use that account for sending email.

To save time, however, it might be valuable to look at "SMTP Server for Developers” (SSFD on Codeplex). This simple tool – developed by Antix – gives you a local SMTP server which looks like a standard server from your application’s perspective but on the back side simply writes all emails to a folder. The emails are stored in a text file with the extension EML and with a predefined format (headers + empty line + body).

By using SSFD the round trip will be faster and for retrieving the email you simply read a file.

To configure email in .NET (I am using version 4.0) add the following to your web.config/app.config file (the highlighted line is needed so SmtpClient.Dispose() doesn’t throw an exception, see comments at the end of this post):

<configuration>
  <system.net>
    <mailSettings>
      <!-- Setting for release (need to update account settings): -->
      <!--<smtp deliveryMethod="Network">
            <network host="..." port="25" userName="..." password="..." />
         </smtp>-->
      <!--Setting for development (uses ssfd.codeplex.com):-->
      <smtp deliveryMethod="SpecifiedPickupDirectory">
        <network host="localhost" />
        <specifiedPickupDirectory pickupDirectoryLocation="C:\data\Temp" />
      </smtp>
    </mailSettings>
  </system.net>
</configuration>

Then in your code write the following:

using System;
using System.Net.Mail;
using System.Reflection;

namespace WebPortal.Controllers {
   internal class EmailHelper {
      public static void SendEmail(string from, string to, string subject, string body) {
         try {
            using(var smtpClient = new SmtpClient()) {
               smtpClient.Send(new MailMessage(from, to, subject, body));
            } 
            // SmtpClient.Dispose() may throw exception despite Microsoft's own guide.
            // See blog post for further details.
         }
         catch (Exception ex) {
            Log.Error(ex);
         }
      }

      private static readonly log4net.ILog Log =
         log4net.LogManager.GetLogger(MethodBase.GetCurrentMethod().DeclaringType);
   }
}

Of course this is only the simplest version. If you need to send to multiple recipients or want to use a specific encoding or HTML instead of text format then this code would needs a bit more meat. Furthermore in a production system you may want to add error handling that allows some feedback to the user or the system administrator.

One observation I made while working on this: Microsoft recommends that “a Dispose method should be callable multiple times without throwing an exception”. Unfortunately SmptClient.Dispose() throws an exception when no host has been specified, thus contradicting their own recommendation.

SSFD doesn’t require the hostname for operation but when you implement your client side code you may want to use “using(var smtpClient = new SmtpClient()) {…}” to ensure that all resources used by your code (e.g. server connections) are properly cleaned up. Without a hostname in the web.config file (or specified through some other means, e.g. programmatically) SmtpClient.Dispose() will throw an exception. Therefore even though SSFD doesn’t need it, add “<network host="localhost" />“ as shown in the above web.config example.

One More: R# Memory Consumption in VS 2010

In my last two posts I wrote about memory consumption of the VS 2010/Resharper 5 combo. In one of the posts I demonstrated how an average of about 10 MBytes of memory are lost each time you close and re-open a solution.

For this post I ran a different experiment. This time I just used R# in VS 2010 for a lengthy period of time without closing/re-opening the solution. The result is plotted in the following graph:

The horizontal axis is the commit to the source code repository that I did. I measured the memory usage after each commit. The vertical axis shows the usage of managed memory in MBytes.

As by and large R# is the only addin/extension that uses managed memory it still looks as if R# is “absorbing” this memory. It doesn’t seem look like memory fragmentation but rather like a memory leak. I didn’t run the experiment without R#. It wouldn’t be comparable as I wouldn’t have refactoring available to this degree.

Overall it seems as if version 5 of Resharper still hasn’t resolved the memory problems. Having said that for most project/solution types it should be fine, though.

Update: ReSharper 5.0 Memory Consumption in Visual Studio 2010

After some discussions with a friend (thank you, Steve!) I have conducted further tests. This time I ran my little experiment with just Visual Studio 2010 and no add-in, extension or whatever installed. Just as it comes out of the box. To measure the memory consumption I used VMMap from SysInternals (owned by Microsoft).

VMMap also displays metrics for the Managed Heap. That’s the place where the objects are stored that are created when you instantiate objects using “new” within your C# code (other languages may use other keywords). Again I used the same solution as in my previous post on the subject, and I followed the same actions: Close Solution, Open Solution, Record current memory consumption.

This time I did 30 runs. First I did this for just VS 2010 without any add-in, extension, etc. Then I repeated the test but this time I had ReSharper installed. The memory I recorded was the “Committed Memory” as per VMMap. The results of my measurements is shown in the following graph:

For this test I used ReSharper 5.0.1659.36. Visual Studio 2010 was the latest and greatest according to Windows Update. VMMap was version 2.62. Be aware that for this test no other add-in, extension, etc. was loaded at any time. The only difference between the runs was that for the second run R# was installed while it wasn’t for the first run.

On a side note: You may wonder why closing and opening matters. Well, my preferred source control plug-in is AnkhSVN. And most of the time is does a great job. Except when it comes to service references. We version these as well but AnkhSVN doesn’t seem to pick up changes in these files reliably. Therefore when we need to update service references – which can happen a lot when we are implementing a new service library – then we use a different tool to commit the change set. Typically we use TortoiseSVN for that. And to make sure that all changes, including solution and project files, are properly saved and picked up, we close the solution file. After the commit we then re-open the solution and continue coding.

Your style of working is most certainly different so this scenario may not apply. For example, on days that I can fully spend on coding I typically commit 10 or more times a day.

At the end of the second test run I then looked at the details for where the managed memory is consumed. It looks as if the memory that doesn’t get freed is listed under Garbage Collector (GC). It appears as if the GC cannot free up some big chunks of memory. This could be application domains that cannot be free because there is still a reference, or large caches or something like that. Here is the screenshot I took from VMMap at the end of the second test run:

What to make of all of this? If you have small solutions, plenty of memory (and there are tricks to tell Visual Studio to use more than 2 GB), don’t need/want to close the solution as often as I do, I’m sure that you will be unaffected by this. I haven’t checked yet how the memory consumption evolves over time under normal workload. I’ll monitor this as well and see whether there is more to discover.

Visual Studio 2010, ReSharper 5 and Memory Consumption

The final word on memory consumption for R# is still not said. It looks as if the jury is till out. But judge for yourself.

I ran the following experiment: I created a solution in VS 2010 with 5 projects in total. Three of the projects are libraries and two of the projects are ASP.NET web applications, one to host services and the other to host the web user interface. All projects are C# and targeting .NET 4.

Then I open a new instance of Visual Studio 2010 and switched on ReSharper’s feature to display the consumption of managed memory in the status bar. The starting value was 19 MBytes after opening VS and no solution loaded. Solution-wide analysis is turned off. The entire system is a laptop with 4 GByte RAM and 32-bit Vista Ultimate. All software is maintained automatically to receive the latest updates and hotfixes.

Next I repeated the following steps 20 times:

1. Open Solution
2. Note managed memory usage
3. Close Solution

Then I plotted the result in a graph. The x-axis is the number of the iteration while the y-axis is the memory consumption in MBytes as reported by the number in the status line, which is an option of ReSharper. I also put a linear trend line on top of the graph. You will note that except for the very first value we seem to have linear trend:

I’m not an expert but based on my experience this graph does not indicate that this is caused by memory fragmentation. If it was memory fragmentation I would expect the growth to decrease and eventually to flatten out. In this case we see a perfectly linear trend which makes me believe that someone is holding on to memory. And I know for sure it’s not me!

Each opening of a solution eats about 11 MBytes of memory. Closing the solution – I thought – should give free all memory that was used up because of the solution being open.

But maybe I’m completely off here and out of my depth. In that case I beg you: Please help me understand!

Visual Studio 2010 Professional Crashes

Feature-wise Microsoft’s new Visual Studio 2010 is definitely a big step forward. I spare you the details. In addition a large number of extensions are available for adding features (and featurettes) that you think you can’t live without.

There is a danger, however: I have downloaded a few of them and I’m now in the mode of disabling all them except the ones I really need, e.g. the Subversion source control addin.

Why? In the last few days I have experienced on average probably two crashes per day. In one case the only thing that helped was rebooting the computer (ok, maybe I shouldn’t use Vista …) So far – admittedly including a large number of extensions – Visual Studio 2010 is by far more shaky and crash-prone than Visual Studio 2008. I don’t know why but this is a slight disappointment.

I’ll update this post once I have disabled or even removed all the bells and whistles that I don’t need to survive as coder. Let’s hope disabling/removing those extensions will make a a difference.

A Simple CAPTCHA Mechanism for ASP.NET MVC 2

Sometimes you may want to protect certain functionality from being used by automated tools. One way of preventing this from happening is using a CAPTCHA, which is basically an image that is intended to be impossible to read by software (e.g. OCR) but possible to read by humans. The Wikipedia article is a good starting point with regards to the limitations of a CAPTCHA and suggestions for how to address those limitations.

In this post I’d like to show to you how you could integrate a simple CAPTCHA mechanism for ASP.NET MVC 2 using C#. My objectives for this implementation were:

1. Ideally all CAPTCHA related code is located in a single class.
2. Using the CAPTCHA in a view should be a single tag.
3. Avoid having to register HTTP handlers or any other modification of the web.config file

Having all of that in mind I experimented a while, tried out a number of suggestions that I found on the web and settled for now with the one I’ll describe in this post.

I’ll start with how the CAPTCHA can be used in a view (for MVC newbies: roughly speaking this is MVC-lingo for page or form). In essence the solution uses a controller class named CaptchaController implementing a method Show(). In your view you use it like this:

Next to it, you probably would want to display a text box for the user to enter their reading of the CAPTCHA value, so in the view the markup for that would look as follows:

This will create an image and next to it you would display a text box as follows:

Of course the value in the image would change.

Now that we can display the CAPTCHA and also have a text box for the user to enter the CAPTCHA value, the next challenge is to store the CAPTCHA value somewhere so that once the user has entered the value and it is coming back to the server, some server side code can validate the CAPTCHA value. The server side code for this looks like this:

This method returns a boolean that you can then use for further processing.

All the rest happens behind the scenes and is completely handled by the class CaptchaController. So what follows is a description of the implementation.

When the CaptchaController renders an image it also creates a cryptographic hash as a session variable. This hash is an MD5 value in my implementation and the calculation uses an additional value to add some ‘salt’ before calculating the MD5 hash. Since the client has no access to the server side code it won’t be able to calculate a matching pair of MD5 and CAPTCHA value. As ‘salt’ I use the assembly’s full name which changes with each compile as it includes the version number.

And here is the source code for CaptchaController:

As always: If you find any bugs in this source code please let me know. And if you can think of other improvements I’d be interested, too.

In closing I’d like to mention reCAPTCHA, for which an ASP.NET component is available as well. Google is the owner of reCAPTCHA and uses it to correct mistakes due to the limitations of OCR (Optical Character Recognition) in their book scanning activities. Depending on your requirements reCAPTCHA might be a good solution as well in particular if you are seeking better protection and/or want to support visually impaired users.

Maybe one day I’ll have the time to look for a single tag / single class integration of reCAPTCHA for ASP.NET MVC …

ReSharper 4.5 Memory Consumption – Hopefully The Last Post On This Subject

I posted in the past about the memory consumption of ReSharper 4.5 with large solutions containing C# but also many C++ projects with over one million line of codes. We installed at least one newer patch in the meantime and it seems that the memory consumption issue caused by the combination of IntelliSense and ReSharper has disappeared in that once IntelliSense has built it’s cache, memory consumption goes back to normal.

In other words the guys at JetBrains seem to have found something, so this issue is solved for the time being. Some of my team members have switch ReSharper back on since.

But there is more admittedly smaller things. One of them is that updating the namespace for a class removes comments from the source code if those comments happen to be in the “wrong” location. Example: Create a WCF library. It will generate a service as an example in that project. Then set the default namespace in the project file to a different value. Go back to the service files (interface and implementation) and use ReSharper to move the interface and the service to the new updated namespace. One comment will disappear in each file. The generated comment is not a big deal. But it could also be a comment that you wanted to keep, let’s say a URL with important background details of your implementation. This behavior is reproducible with version 4.5 and Visual Studio 2008. I haven’t checked the beta for version 5.0, though. Chances are that this has been fixed as well.

Don’t get me wrong: ReSharper is a tool that helps improving the productivity and quality of your code significantly. Despite a few nuisances in the product I use ReSharper on a daily basis. Whether you use this tool or a different one, there is no excuse for not refactoring your code mercilessly!

Generic Empty Array

In certain situations empty arrays of a specific type can be handy. Of course you could always use “new MyType[0]” to instantiate such an empty array and in most situations this will be just fine.

However, if this happens often – like hundreds and thousands of times – then you may want to consider the implementation of a generic empty array. Although it consumes only a few bytes per instance it still contributes to memory consumption and fragmentation and the garbage collector has a few more things to do as well. With a generic empty array a single instance per type is shared throughout your code and those –generally small problems – are avoided in the first place.

Of course this idea is not new. For example check out this conversation on stackoverflow. However the code given there contains a small glitch and doesn’t compile, so here is the source code for the same thing with that glitch resolved:

   25 namespace csUnit.Common {

   26    public static class EmptyArray<T> {

   27       private static readonly T[] Empty = new T[0];

   28       public static T[] Instance {

   29          get { return Empty; }

   30       }

   31    }

   32 }

But wait, there is one more: When you use an array as a return value for a method you may also want to consider reading Eric Lippert’s thoughts on the subject. It definitely doesn’t hurt and may make your code more efficient and improve the design of it.

Whereabouts of csUnit

Ok, I’ve been a bit quiet on csUnit for a while. The reason being that I tried to get a plug-in for ReSharper running. And to some degree I got it to where the most simplest cases would work. At the moment I’m kind of stuck. I tried to figure out how to make it execute SetUp, FixtureSetUp, etc. methods but wasn’t successful so far. I tried to find some online documentation, got the sources for about half a dozen other plug-ins, and still. Maybe I’m just overlooking something very obvious.

So any of you, dear readers, if any of you can point me to more information or if anyone would like to help out, please get into contact at manfredmlange at gmail dot com. Thank you!

Of course I’ll continue searching for a solution in the meanwhile but I cannot make any promises.

Consuming a WCF Service

In one of my recent posts I demonstrated how to implement a simple WCF service using Visual Studio 2008. This time I’ll look at how to implement the client. In doing so I’ll highlight an important oversight of quite a few examples on the internet include at least one provided my Microsoft (see references)!

I’ll continue where I left the solution last time:

I’ll add a service client next. Many different options are possible, a Forms-base native application, a WPF-based client, an ASP.NET site, command line, and many more. For this example I’ll use an ASP.NET front-end.

Creating the ASP.NET Application

I’ll use add a new project to the solution. Here is the recipe:

1. Select from the solution context menu “Add”, then “New Project…”
2. In the tree on the left expand the “Visual C#” node, then click “Web”
3. On the right select “ASP.NET Web Application”
4. As a name enter “DuckWeb”.

Here is how it should look like just before you click “OK”:

Click OK and your solution should now look like this (I collapsed the DuckServiceLibrary to save some space):

Open the file Default.aspx in source mode and add a label, a text box and a button as follows:

    1 <%@ Page Language="C#" AutoEventWireup="true"

    2     CodeBehind="Default.aspx.cs" Inherits="DuckWeb._Default" %>

    3 <!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN"

    4          "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">

    5 <html xmlns="http://www.w3.org/1999/xhtml" >

    6 <head runat="server">

    7     <title></title>

    8 </head>

    9 <body>

   10     <form id="form1" runat="server">

   11     <div>

   12     <asp:Label ID="_pondNameLabel" runat="server" Text="Pond Name:">

   13     </asp:Label>

   14     <asp:TextBox ID="_pondNameTextBox" runat="server"></asp:TextBox>

   15     <asp:Button ID="_submitButton" runat="server" Text="Submit"

   16           onclick="_submitButton_Click" />

   17        <br />

   18        <br />

   19        <asp:Label ID="_pondStatusMessage" runat="server" Text="Status unknown.">

   20        </asp:Label>

   21     </div>

   22     </form>

   23 </body>

   24 </html>

When you view this in a browser it looks like this:

It doesn’t do anything yet, however. Next I’ll add an event handler to clicking the button. In the Design view of Visual Studio for Default.aspx I simply double-click the button which gives me the following handler:

   14 protected void _submitButton_Click(object sender, EventArgs e) {

   15 

   16 }

In this I’ll add the the code for the service. However, in order to consume the service the web application needs a reference to it. That’s easy to do by doing a right mouse click in the solution explorer on the project “DuckWeb” and then selecting “Add Service Reference…”:

In the “Add Service Reference” dialog I click the “Discover” button and then enter as namespace at the bottom “PondServiceReference”:

Upon clicking “OK” the service reference will be added and I can start using the service as if it was just another .NET library.

Let’s return to the _submitButton_Click() event handler. Since I now have the service reference available I can write my first implementation:

    1 using System;

    2 using System.Web.UI;

    3 

    4 using DuckWeb.PondServiceReference;

    5 

    6 namespace DuckWeb {

    7    public partial class _Default : Page {

    8       protected void Page_Load(object sender, EventArgs e) {

    9 

   10       }

   11 

   12       protected void _submitButton_Click(object sender, EventArgs e) {

   13          var client = new PondServiceClient();

   14 

   15          _pondStatusMessage.Text = _pondNameTextBox.Text +

   16             (client.IsFrozen(_pondNameTextBox.Text) ?

   17                                     " is frozen." : " free of ice.");

   18       }

   19    }

   20 }

Note that I added a using statement for the namespace that contains the generated classes for the service reference. Please also note that this code is far from production ready but I’ll come back to this shortly. First let’s see whether this already works as expected. After setting the DuckWeb project as the startup project the browser is launched and I give it a test run:

Just what I wanted! So all good, right? Not quite! Return to the code where I create the PondServiceClient instance:

   13 var client = new PondServiceClient();

In this line I also create a connection to the service. However, nowhere in the remainder of the code do I close this connection. Of course at some point the instance will be subject to garbage collection and of course the connection will eventually be closed. However, if I rely on this mechanism I have very little control over when that happens. In this simple example it may not be a big issue. However, if the service implementation uses other resources per connection, e.g. a database connection, or if the service is configured to service only a certain number of open connections, e.g. 10, then your system will get into trouble very quickly. Unfortunately some examples on MSDN or similar sites don’t close WCF connections either (see references below), so chances are that we’ll see service clients that won’t be implemented correctly.

Therefore let’s add a line that closes the connection:

   13 protected void _submitButton_Click(object sender, EventArgs e) {

   14    var client = new PondServiceClient();

   15 

   16    _pondStatusMessage.Text = _pondNameTextBox.Text +

   17                              (client.IsFrozen(_pondNameTextBox.Text)

   18                                  ?

   19                                     " is frozen."

   20                                  : " free of ice.");

   21    client.Close();

   22 }

Now this looks already better. But it is still not good enough!

What if we cannot connect to the service for whatever reason? If that is the case the generated code will throw different types of exceptions depending on the error. The recommended way (or canonical way if you like) of handling the exception looks as follows:

   23 protected void _submitButton_Click(object sender, EventArgs e) {

   24    var client = new PondServiceClient();

   25 

   26    try {

   27       _pondStatusMessage.Text = _pondNameTextBox.Text +

   28                                 (client.IsFrozen(_pondNameTextBox.Text)

   29                                     ?

   30                                        " is frozen."

   31                                     : " free of ice.");

   32       client.Close();

   33    }

   34    catch (CommunicationException ex) {

   35       // Handle exception

   36       client.Abort();

   37    }

   38    catch (TimeoutException ex) {

   39       // Handle exception

   40       client.Abort();

   41    }

   42    catch (Exception ex) {

   43       // Handle exception

   44       client.Abort();

   45    }

   46 }

In all exception handlers I call client.Abort() to cancel the connection. In a real application I would also present a message to a user along the lines “Cannot answer your request as a required service is temporarily not available. Please try again later.”

How about using a using(var client = new PondServiceClient()) contruct:

   49 protected void _submitButton_Click(object sender, EventArgs e) {

   50    using(var client = new PondServiceClient()) {

   51       _pondStatusMessage.Text = _pondNameTextBox.Text +

   52                                 (client.IsFrozen(_pondNameTextBox.Text)

   53                                     ?

   54                                        " is frozen."

   55                                     : " free of ice.");

   56    } // Dispose will be called here.

   57 }

Dispose will be called at the end of the using-block. However, this code doesn’t handle the exceptions yet that you might encounter in the invocation of the service. Furthermore, an exception can also happen when Close() is called from Dispose(). How would you handle those exceptions? The using-construct would lead to very ugly code. For a more detailed discussion see the references at the end of this blog.

This concludes this step of the blog post series on WCF services. There will be at least one more on how to propagate error conditions from a service to a consumer.

Update 09 April 2012: In a newer blog post I’m discussing various options for simplifying the client side. The discussion includes ways for handling everything according to Microsoft’s recommendations while at the same time avoiding code duplication.

References

Some examples for WCF client code that doesn’t close the connection to the service:

• “Accessing Services Using a WCF Client” (Microsoft MSDN, retrieved 02-Feb-2010)
• “A beginner’s guide for consuming a WCF service in JavaScript using ASP.NET AJAX” (Codeproject, retrieved 02-Feb-2010)

It is correctly mentioned and demonstrated at:

• “WCF Client Overview” (Microsoft MSDN, retrieved 02-Feb-2010)
• “Accessing Services Using a Client” (Microsoft MSDN, retrieved 02-Feb-2010). This example also shows the canonical form for handling WCF client side exceptions.

Installing SQL Server 2008 (64bit) on Windows 7 (64bit)

As described here you can run into an error when trying to install Microsoft SQL Server 2008 (x86, 64bit) on a Vista (64bit). The error message is something along the line "The INSTANCESHAREDWOWDIR command line value was not specified. This value must be specified when the INSTANCESHAREDDIR value is specified."

You can run into the same issue on a Windows 7 (64bit) as well as I had to learn today. I used the default installers for SQL Server 2008 Developer Edition, 64 bit.

One additional note, though: If you have accidentally changed the default installation path to something that works for you and then back to the default, the error might not go away. In that case cancel the installation and start all over. This time, don't touch the default installation path.

This approach worked in my case. Of course, if you prefer the software to be installed in a different location or drive, you may have to try the workaround described here.

Microsoft Visual Studio 2010 RC Released

Microsoft just made available the release candidate (RC) for Visual Studio 2010 and the .NET Framework 4.0. The downloads are available for non-MSDN subscribers as well. The RC does not support Silverlight 4 development. If this applies to you stay on beta 2.

Using Environment Variables in WiX

Today I ran across a challenge with WiX, which took me a couple of hours to resolve. Maybe I can help you saving this time by describing what I tried to achieve and how I resolved it in WiX.
Although our build machine uses a 32 bit operating system in some cases we build certain solutions on a 64 bit OS. One of these solutions includes a WiX project which packages a merge module for the C runtime libraries. On the 32 bit platform merge modules are located in “c:\Program Files\Common\Merge Modules”. In our WiX installer script (a WSX file) we package a merge module with a hardcoded path. This works fine on a 32 bit operating system.
However, it fails on a 64 bit operating system. There Visual Studio 2008 places the merge modules in “c:\Program Files (x86)\Common\Merge Modules”. As a consequence the hard code path doesn’t work.
I’d like to do set this path differently based on an environment variable. I chose “CommonProgramFiles(x86)” which exists on the 64 bit platform but is undefined on a 32 bit OS. Based on information I found at WiX’s web site, my first attempt looked as follows:

    3 <?ifdef $(env.CommonProgramFiles(x86)) ?>

    4 <!-- Variable is defined, we are building on 64 bit -->

    5 <?define commonProgramFiles = "c:\Program Files (x86)\Common\" ?>

    6 <?else?>

    7 <!-- Variable is not defined, we are building on 32 bit -->

    8 <?define commonProgramFiles = "c:\Program Files\Common\" ?>

    9 <?endif?>

Note, that this is not about the computer on which I want to install the software package. This is about the computer on which the installer is created. So the idea is that I would then be able to use the variable ‘commonProgramFiles’ later in the script, e.g. when referencing a file:

    1 <File Source="$(var.commonProgramFiles)Merge Modules\Microsoft_VC90_CRT_x86.msm" >

    2    ...

    3 </File>

Trouble was that it wouldn’t work. With some further digging I found a message in an email list that contained the helpful hint. The relevant quote is:

“Use <?ifdef?> first to see if it's defined. Don't use $() around it in an <?ifdef?>.”

So I rewrote the the WiX script as follows:

    3 <?ifdef env.CommonProgramFiles(x86) ?>

    4 <!-- Variable is defined, we are building on 64 bit -->

    5 <?define commonProgramFiles = "c:\Program Files (x86)\Common\" ?>

    6 <?else?>

    7 <!-- Variable is not defined, we are building on 32 bit -->

    8 <?define commonProgramFiles = "c:\Program Files\Common\" ?>

    9 <?endif?>

Note how line 3 has changed. Now it worked like a breeze! I can now build the installer on both a 32 bit OS and a 64 bit OS and the project will still find the required merge module.
One further note: If you want use any of the WiX tools in a batch file, you may want to use %WIX% instead of a hard coded path to the toolset.
Jason, thank you very much for your help in sorting this out!
P.S. I haven’t forgotten about the mini-series of blogs about WCF-based services I’ve started a few days ago. It’s still coming!

ArgumentException vs ArgumentNullException

Ok, maybe I’m missing the point, but here is an item I don’t understand: When you want to throw an ArgumentException with the parameter name and a message as arguments, then the parameter name is the first parameter. When you use ArgumentNullException it’s just the other way round. Sounds complicated? It becomes more apparent once we look at some source code:

    1 public void DoSomething(string paramName) {

    2    if (paramName == null) {

    3       throw new ArgumentNullException(

    4          "paramName", // Must be first parameter here

    5          "Parameter cannot be null."

    6       );

    7    }

    8    if (paramName.Length < 10) {

    9       throw new ArgumentException(

   10          "String must have at least 10 characters.",

   11          "paramName"  // Must be second parameter here

   12       );

   13    }

   14    // ... rest of the method ...

   15 }

I haven’t noticed this in the past but nevertheless: Unless I’m totally overlooking the brilliant idea behind this, I’m not quite sure whether this inconsistency makes using these classes easier…

It’s certainly not a big issue and it’s probably too late anyways to fix this particular problem. I still wanted to rant a bit… and I’ll take this as an opportunity to search for similar inconsistencies in my own code.

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I just noticed: This is my 100th post on this blog! Time to celebrate. Cheers!

Implementing a WCF Service in Visual Studio 2008

I’m aware that there are quite a few examples already for how to implement and consume services using WCF in Visual Studio 2008. However, I’d like to provide a slightly different example by providing some additional aspects that you may want to consider for commercial deployments. This includes propagating error conditions and system design aspects, all using the same running example. At times this will certainly stretch the blog format somehow and I may provide a more detailed documentation in a different format.

Enough talk. Let’s get something done!

WCF (Windows Communication Foundation) is a very powerful part of the Microsoft .NET framework. In this post I will show you how to implement a very simple service. And as a running example I’ll use ducks. So the service will be called PondService where ducks can feed. As a tool I’ll use Visual Studio 2008 augmented with ReSharper and AnkhSVN. ReSharper (commercial) is a very powerful tool for refactoring (has some limitation in certain scenarios, e.g. memory consumption) while AnkhSVN (free, open-source) is an extremely helpful plug-in and client for Subversion.

Creating The Solution

As a first step I need an empty solution, which I’ll call RubberDuck. Here’s the recipe:

1. From the menu select “File” - “New” - “Project…”
2. In the tree on the left expand “Other Project Types”
3. Select “Visual Studio Solutions”, then on the right “Blank Solution”
4. Enter “RubberDuck”

Here is what it should look like:

Click “OK”.

Add the Service Library

Next, I’ll add a service library to the solution. We’ll call it DuckServiceLibrary. Here’s the recipe:

1. In the “Add New Project” dialog in the tree on the left select “Visual C#” then “WCF”.
2. Then select “WCF Service Library” on the right.
3. As a name enter “DuckServiceLibrary”.

At this stage the dialog should look as follows:

After I click OK the solution looks as follows:

Next we’ll add the PondService to the new service library. For this step you need to be aware that there are (at least) two items that look as if they are a fit: “Windows Service” and “WCF Service”. The former would be an old-style web service which technically would work. However, we choose “WCF Service” in the “Add New Item” dialog box. Here is how the dialog looks before I click “Add”:

The solution still contains IService1.cs and Service1.cs which were generated when I added the service library. I simply delete them. However, there is more cleanup work required. The DuckServiceLibrary contains a file named “app.config”. Of course I could go in and just delete the entries for Service1. However, there is a second option: The Microsoft Service Configuration Editor. You can launch it from the context menu on “app.config”:

There are two places in the Service Configuration Editor (SCE) where I’ll remove the configuration entries for Service1. First there is the Service1 and there is the Service1Behavior:

Delete the two highlighted nodes. Then make sure you client “Save” before exiting. While I’m comfortable to edit XML files I prefer the SCE since it is harder to accidentally delete items you still need.

The Actual Service Implementation

With all of this in place (just takes a couple of minutes, once you get used to it), I’m now in a position to define the interface I’d like the service to have. To stay with the running example the duck would like to know whether a particular pond is currently frozen or not. During winter a frozen pond doesn’t really help finding food. After removing all unused using’s (ReSharper function) the service interface looks as follows:

    1 using System.ServiceModel;

    2 

    3 namespace DuckServiceLibrary {

    4    [ServiceContract]

    5    public interface IPondService {

    6       [OperationContract]

    7       bool IsFrozen(string pondName);

    8    }

    9 }

The implementation is even simpler. Using the “fake it ‘till you make it” I simply return true. Of course real ducks wouldn’t like that service level so you probably want to offer something more substantial!

    1 namespace DuckServiceLibrary {

    2    public class PondService : IPondService {

    3       #region Implementation of IPondService

    4 

    5       public bool IsFrozen(string pondName) {

    6          return true;

    7       }

    8 

    9       #endregion

   10    }

   11 }

By convention I’ve surrounded the service implementation with a region. In this example it doesn’t make a big difference but once a class becomes larger then it pays off to use a region per interface implementation.

Trying Out the Service

Although I haven’t implemented a client I can still try out what I have so far. Hit F5 and Visual Studio will compile the service library and launch a WcfServiceHost that host the service. It will also launch a WCF Test Client with the PondService added to it already:

To try the service out I double click on the “IsFrozen()” operation. The WCF Test Client will open a tab in the right hand pane into which I can enter a pond name as follows:

Next I click the Invoke button and I get the response from the service. I can verify the response in the lower right part of the WCF Test Client window:

By the looks of it we didn’t make a mistake with our implementation: The Clearwater Lake is frozen.

So this is it for this post. In subsequent posts I’ll cover:

• How to implement a WCF client?
• How to exchange data between server and client?
• How to propagate error conditions?
• Others

Stay tuned!

ASP.NET Web Deployment Projects and Subversion

If you are using both ASP.NET Web Deployment Projects and Subversion you might have come across the issue that the deployment project copies entire folders including the hidden Subversion folders called '.svn'.

To prevent files from being included in the deployment you can modify the project file by modifying the ItemGroup element. Here is an example that excludes '.svn' as well as the C# project file and the intermediate files in 'obj':

<ItemGroup>
   <ExcludeFromBuild Include="$(SourceWebPhysicalPath)\**\.svn\**\*.*" />
   <ExcludeFromBuild Include="$(SourceWebPhysicalPath)\*.csproj.*" />
   <ExcludeFromBuild Include="$(SourceWebPhysicalPath)\obj\**\*.*" />
   <!-- further exclude items here -->
</ItemGroup>

Compile error in file reference.cs

It's a bit strange but I'm observing the following: ASP.NET Web Application + Service Reference + master page = compile errors in file reference.cs Under certain circumstances the above combination doesn't seem to work in Visual Studio 2008 SP 1. If that is the case you may see compile errors like "The type name 'xxx' does not exist in the type 'yyy' ... Reference.cs ..." For example: To better understand what is going wrong let me also show the project settings: And here is the project layout:The point is that I added a master page named "Dolphin.Master". It has the prefix "Dolphin." which is also the default namespace set for the project. The default namespace in the project settings is used to generate client side code for the service reference. So if you receive a compile error, my recommendation would be to rename the master page to something different than the project's default namespace. When you do, please be aware of the following items as they may lead to follow-on issues:

1. References to the master page will not be updated in the content pages. You will need to update them manually, e.g. using find-replace.
2. The same applies for the rename refactoring in ReSharper (version 4.5.1288).

This post applies to Visual Studio 2008 SP1. The system had the latest patch level as of writing. I did not assess whether this issue still exists in Visual Studio 2010 as it hasn't been released yet as a production version. I'd be interested, though, if you find variations of this problem, or if you find different options for resolving it.