Windows Phone is (officially) dead!

Over the last few months years quite a few people have written about the Windows Phone demise.

However, according to Microsoft’s Support Page for product life cycle, the “Mainstream Support End Date” for Windows Phone 8.1 is July 11, 2017… so that’s basically, tomorrow!

Microsoft’s last update for the WP8.x operating system (dubbed “Update 2”) was more than 2 years ago… so even if the “official” support only now ended, I think we can all agree that unofficially Microsoft abandoned the OS a long time ago (mostly when they replaced it with Windows 10 Mobile).

My own experience with Windows Phone

Microsoft announced Windows Phone 7 at the Mobile World Congress in Barcelona, Spain, on February 15, 2010; I remember that the more I saw those screens and learned about the promised capabilities and technical details, the more I knew that I wanted to build apps for it, both as a hobby and professionally - and do so I did!!

When they released the first Windows Phone devices on October 21, 2010 in Europe, I went straight to a local shop and bought my very first Windows Phone: the magnificent Samsung Omnia 7.

Soon after that, Microsoft and Nokia got into a partnership to boost the operating system footprint, and as a consequence I ended up leaving Portugal and moving to Bristol UK to join the Nokia Music division, later known as MixRadio!

Nokia’s first Windows Phone was the Lumia 800, one of the best phones I have ever owned (I actually kept one of these as a souvenir)

By my account, throughout the years I owed and used at least 12 different Windows Phone devices, mostly due to my time as Nokia employee.

I also got to do a lot tech-talks on Windows Phone development, and participated in a few hackathons, helping the young and brightest with their projects.

Windows Phone 7 development with Silverlight - Microsoft Techdays Portugal 2010

“The King is dead, long live the King!”

Microsoft arrived late to the “mobile party” and made lots of mistakes (the lack of software upgrades for “older” devices, some less than a year old, being the biggest), but it was the lack of true first-party apps that caused users to lose interest in the phones and doomed the mobile operating system.

Windows 10 makes good on the promise of “one Windows for all devices”, but the mobile flavor never did get the same praise as the Windows Phone did - and I strongly agree with that!

I enjoyed all my Windows Phone devices, and I will miss using them a lot… but life goes on!

Farewell, Windows Phone.

Cimbalino Toolkit 2.5.0

Yesterday I released Cimbalino Toolkit version 2.5.0!

Here’s what’s changed on this version:

  • Cimbalino.Toolkit.Core now targets the .NET Standard 1.0
  • Cimbalino.Toolkit.Core will now behave as the rest of the toolkit in regards to throwing NotImplementedExceptions only on specific cases
  • Exposed overrideable async methods in ExtendedPageBase
  • Other fixes and improvements

From the above, I’d like to emphasise the huge advantage of supporting .NET Standard 1.0: this means you can now use Cimbalino.Tookit.Core in all .NET platforms: .NET Framework, .NET Core, and Mono!

CultureInfo changes in UWP - Part 2

A while back I wrote an article about the CultureInfo changes in UWP and how they affected the UWP apps.

Well, things haven’t changed much since then, and the information in that article still stands today!

However, Microsoft has since open-sourced the .NET Core Runtime (CoreRT), and that allowed me to take a peek under the hood to understand what is going on.

While looking at the CultureInfo.cs code, I noticed the following comment on the CurrentCulture property:

We use the following order to return CurrentCulture and CurrentUICulture

  • Use WinRT to return the current user profile language
  • Use current thread culture if the user already set one using CurrentCulture/CurrentUICulture
  • Use thread culture if the user already set one using DefaultThreadCurrentCulture or DefaultThreadCurrentUICulture
  • Use NLS default user culture
  • Use NLS default system culture
  • Use Invariant culture

This confirms our findings!

Looking on the CultureInfo.Windows.cs partial class, I noticed the #if ENABLE_WINRT on the top, which forces the first rule on that comment!

Further down in the same file, we find a GetUserDefaultCulture method which uses the GetLocaleInfoEx Win32 API to retrieve the locale name.

This Win32 API is actually allowed for apps published to the Windows Store!

Retrieving the “proper” CurrentCulture, the proper way!

In my previous article on this subject, I found a hack where one could retrieve the “proper” CurrentCulture using the DateTimeFormatter class.

But with all this new information, I have now created a non-hacky way of doing the same:

using System.Globalization;
using System.Runtime.InteropServices;
using System.Text;
public class CultureInfoHelper
[DllImport("api-ms-win-core-localization-l1-2-0.dll", CharSet = CharSet.Unicode)]
private static extern int GetLocaleInfoEx(string lpLocaleName, uint LCType, StringBuilder lpLCData, int cchData);
private const uint LOCALE_SNAME = 0x0000005c;
private const string LOCALE_NAME_USER_DEFAULT = null;
private const string LOCALE_NAME_SYSTEM_DEFAULT = "!x-sys-default-locale";
private const int BUFFER_SIZE = 530;
public static CultureInfo GetCurrentCulture()
if (name == null)
if (name == null)
// If system default doesn't work, use invariant
return CultureInfo.InvariantCulture;
return new CultureInfo(name);
private static string InvokeGetLocaleInfoEx(string lpLocaleName, uint LCType)
var buffer = new StringBuilder(BUFFER_SIZE);
var resultCode = GetLocaleInfoEx(lpLocaleName, LCType, buffer, BUFFER_SIZE);
if (resultCode > 0)
return buffer.ToString();
return null;

All you need is to copy the above to a file in your UWP project, and then call CultureInfoHelper.GetCurrentCulture().

I strongly advise using this new method instead of the “hack” I used in my previous article, as this is the same one that the .NET Framework relies on to retrieve the CurrentCulture information!

Creating custom build configurations for the .NET Core project format

MSBuild based projects have two default build configurations: Debug and Release.

While these two configurations are enough for most projects, some might actually require custom build configurations that will support different environments, alternative build targets, etc..

Until now we could use Visual Studio Configuration Manager to easily create a copy an existing configuration setup, and then change small bits to match our specifications.

But now there’s a new csproj format for .NET Core, and while it includes the expected Debug and Release build configurations, the “copy configuration” process doesn’t work anymore!

The problem is that the new project format is based in quite a few implicit defaults, so Visual Studio Configuration Manager can’t actually create a copy of the existing build configurations with all the properties set.

Introducing the MSBuild Configuration Defaults

As I couldn’t find a way to “inherit” from the base Debug and Release build configurations, I tried to understand what properties were actually required on each of them, and then create some build scripts that would set them for me!

Those MSBuild scripts are available here and can easily be installed by running Install-Package MSBuildConfigurationDefaults on the Package Manager Console, or added with the Visual Studio NuGet Packages Manager.

After adding the NuGet package, I recommend closing and re-opening the solution to ensure that the build scripts are correctly loaded.


Once installed, any custom build configuration name starting or ending on “Debug” will have the following build properties set by default:


Similarly, any custom build configuration name starting or ending on “Release” will have the following build properties set by default:


If any of these properties are set on the project, those values will have override the defaults above.

If you don’t want to name your custom build definition according to the rules above, just add a ConfigurationGroup property and set the value to Debug or Release to ensure those build definitions get the appropriate default properties set.

The following is an example of a custom build configuration called “Production”, that has the ConfigurationGroup set to “Release” (so it gets the default property values set as for the a “Release” build configuration), but also overrides the DebugSymbols property default value:

<PropertyGroup Condition="'$(Configuration)' == 'Production'">

Await your event handlers completion with Deferred Events

Developers should avoid async void methods, but there are some situations where this is a “necessary evil”, and event handlers are one of those cases.

If one needs to use the await keyword inside an event handler code, the method itself must be async void

The following is an example of this:

public sealed partial class MainPage : Page
public MainPage()
Loaded += MainPage_Loaded;
private async void MainPage_Loaded(object sender, Windows.UI.Xaml.RoutedEventArgs e)
await DoSomethingAsync();
await DoSomethingMoreAsync();

On the above example, the MainPage_Loaded is an async void method that will as it needs to await for the completion of some of its calls, but sometimes we also need to allow the event invoker to wait for all handlers to complete.

Inspired on how the background tasks use a deferral approach to solving this problem (as they too are void methods), I came up with a similar approach!

Introducing the Deferred Events

A “deferred event” is basically an event that allows the invoker to wait for the completion of all event handlers.

My personal implementation is available on the DeferredEvents NuGet package that you can install by running Install-Package DeferredEvents on the Package Manager Console, or add with Visual Studio NuGet Packages Manager.

This is a .NET Standard 1.0 package, so you should be able to use it on any .NET project!

If you want to take a look at what’s inside, the full source code is available here.


Here is an example of a deferred event:

public event EventHandler<DeferredEventArgs> MyEvent;

The only difference here to a regular event is that the event arguments have to be of type DeferredEventArgs (or a custom class inheriting from them), and that’s what allows the whole thing to work!

Now take a look at how we raise this event:

await MyEvent.InvokeAsync(sender, new DeferredEventArgs());

The InvokeAsync() is an extension method that will wait for all event handlers to finish their work before we proceed.

And finally, here’s how our event handler looks like:

public async void OnMyEvent(object sender, DeferredEventArgs e)
var deferral = e.GetDeferral();
await DoSomethingAsync();

The trick here is to call e.GetDeferral() to retrieve a deferral object, and just before we exit the method, we do deferral.Complete() to notify the invoker that we have completed our work!

There are a few rules that you have to be aware of:

  • You only need to call e.GetDeferral() if you actually want to the event caller to wait for the completion of the event handler; if you don’t call it, it will just behave as a regular event handler.
  • You must call e.GetDeferral() to get an EventDeferral instance before any await call in your code to ensure that the event caller knows that it should wait for deferral.Complete(); ideally, it should be the first thing you do in the event handler code.
  • If you have indeed called e.GetDeferral(), then you must call deferral.Complete() to signal that the event handler has finished.

To ensure the correct usage of the deferred events, use the following as a template for your event handlers:

public async void OnMyEvent(object sender, DeferredEventArgs e)
var deferral = e.GetDeferral();
// awaiteable code

Alternatively, you can also use the using pattern like this:

public async void OnMyEvent(object sender, DeferredEventArgs e)
using (e.GetDeferral())
// awaiteable code

Setting a custom User-Agent in the UWP WebView control

I recently came into a UWP project requiring all HTTP requests to use a specific User-Agent string.

That’s quite easy to do if you only use Windows.Web.Http.HttpClient as there’s a managed property for that purpose: HttpClient.DefaultRequestHeaders.UserAgent.

Similarly, the same applies for System.Net.Http.HttpClient and the HttpClient.DefaultHeader.UserAgent property.

The real problem is if you need to use the WebView control to present web content, as there’s no managed property to change the user-agent!

It is possible to create a HttpRequestMessage instance, set a custom user-agent string in it, and then call the WebView.NavigateWithHttpRequestMessage method, but that will only work for that specific navigation request.

Any requests invoked from inside the webview (like a form post) will use the system default user-agent string.

So what’s the solution?

The solution comes in the form of a Win32 API called UrlMkSetSessionOption.

Amongst other things, this API allows you to set the default user-agent string for the current internet session!

Here’s an example of how to use it; first, add the following class to your app:

public class UserAgentHelper
[DllImport("urlmon.dll", CharSet = CharSet.Ansi, ExactSpelling = true)]
private static extern int UrlMkSetSessionOption(int dwOption, string pBuffer, int dwBufferLength, int dwReserved);
private const int URLMON_OPTION_USERAGENT = 0x10000001;
public static void SetDefaultUserAgent(string userAgent)
UrlMkSetSessionOption(URLMON_OPTION_USERAGENT, userAgent, userAgent.Length, 0);

Now load your App.xaml.cs file and ensure you call the UserAgentHelper.SetDefaultUserAgent() method inside the App class constructor:

public App()
// remaining code

From that point on, any webview inside your app will use the specified user-agent string (“MyApp/1.0” in our example above)!

One final note: only a few Win32 API’s are actually allowed in apps published to the Windows Store (you can check the complete list here)!

The Windows Store recently allowed for apps to use the UrlMkSetSessionOption API, but if you look at the list above you will notice that it’s not yet listed; that should change once Microsoft updates the list on that page.

Kudos to Hermit Dave for pointing me in the right direction for a solution for this problem!

Migrated from WordPress to Jekyll

For a long time now, my blog has been powered by WordPress and hosted on GoDaddy shared hosting.

Last week I noticed that the blog was down, and when I opened GoDaddy’s shared hosting administration area, I got a database connection error message.

I then did what anyone in this situation would do: get help!

However, contacting GoDaddy support proved completely useless, as all I got was something along the lines of “yes, there’s a problem and we’re working on to fix it; no, we don’t know when it’s gonna be fixed, so please try later”

After some 5 hours, the blog was back up and running… but there was a big problem: some content had disappeared!

I’m guessing they had some problem with the database server, and their “fix” involved recovering the databases from an old backup.

That was the final reason I needed to completely ditch WordPress and GoDaddy, and migrate to something faster and more recent: this blog is now fully powered by Jekyll and hosted in GitHub Pages!

Major advantages of this approach are:

  • No more MySQL or any other database server involved
  • full control over rendered content
  • everything is statically generated on every commit of the git repo, so it’s blazing fast!
  • I can host it for free in GitHub Pages and add some nice features like allowing other people to send me Pull Requests with fixes and improvements (or just to correct my recurrent typos!)

This right now is actually the first post I write in the new platform! :)

There are still a few quirks to fix, so if you find any problem please report it by creating a new issue and I’ll take care of it as soon as possible!

Awarded Microsoft Windows Development MVP 2017

It is with great pride that I received the Microsoft Most Valuable Professional (MVP) Award 2017 for Windows Development!

From the Microsoft MVP award overview page:

“…the Microsoft MVP Award is our way of saying “Thanks!” to outstanding community leaders.”

This is my first MVP Awards and to me feels like the top recognition for all the work I’ve been doing for the past few years with the community around Microsoft Technologies, particularly in Windows and Windows Phone development.

I consider this award as a personal achievement, but it is one that I could not have accomplished without the help and support of some people, specifically:

  • Scott Lovegrove, Joost van Schaik, Glenn Versweyveld, Hermit Dave, Sébastien Lachance, Bart Lannoeye, and quite a few other distinguished MVP’s!
  • Alberto Silva, Sandro Pereira, Tiago Pascoal, Paulo Morgado, and other fellow Portuguese MVP’s!
  • Luis Calado, João Pedro Martins, Clint Rutkas, and quite a few other Microsoft employees!
  • my wife, Joana, who has the patience to put up with me doing “geeky” stuff all the time!

…and finally but most importantly, the whole community, who reads my blog, follows me on twitter, checks my code contributions, downloads my apps, and gives me the opportunity to carry on doing what I’ve done so far and that will continue to improve in the future!

Thanks! :)