Microsoft Azure Web sites provide a robust and easy-to-use container for hosting your Web applications. This doesn't just pertain to ASP.NET apps, but to several templates such as Drupal, WordPress, Orchard and so on. The service also provides first-class support for Node.js Web apps/APIs, PHP and Python. If you're new to Azure Web sites, you might think, "Big deal, this is just another Web host." You would be wrong. There's a ton of value you get with Azure Web sites that blows away your commodity Web hosters:
- The free version lets you host up to 10 sites in a multi-tenant environment and provides a great dashboard, FTP and continuous deployment capabilities including first-class support for Git (local repos) and GitHub.
- The shared version adds support for seamlessly scaling your app up to six instances/nodes along with enabling Web Jobs that provide worker processes for executing jobs on a schedule, continuously or on-demand.
- The standard version lets you dedicate not just instances, but full VMs to your application and supports auto-scaling your app based on metrics and triggers.
There's a lot more to Azure Web sites, whether you're a .NET, Node.js, PHP or Python developer. Learn more at the Azure Documentation page.
When you create your Azure Web site application, you get both an IP and URL. The URL takes the form of [your app].azurewebsites.net. Chances are you'll want your own domain name so that instead of [your app].azurewebsites.net, you can point to a specific address. You can do this in four simple steps.
Step 1: Ensure your site is configured for shared or standard mode. The free version doesn't support custom domains, which seems reasonable. If you started with a Web site in free mode, simply click on the Scale option and choose Shared or Standard mode and click OK.
Step 2: Copy the IP and Azure Web site URL. The next step is to make note of your URL and IP address. You'll need this for the third step in this process. Go to the list of Azure Web sites, select the site (but don't click on it) and click on the "Manage Domains" icon at the bottom of the command bar. This will bring up a dialog that includes your current domain record ([your app].azurewebsites.net) and your IP.
Step 3:Update the A Record and CNAMEs. Make a note of each and log in to your domain registrar's console. You want to look for DNS Management and either Advanced or Manage Zones or Manage DNS Zone File. You want to get to whichever console lets you configure your A Record and CNAMEs. These records allow for requests to your registered domain name to be forwarded to Azure specifically your Web site's host name. The result is your Web site will resolve to both [your app].azurewebsites.net and whatever domain you purchased.
The A record needs to point to the IP address you captured in step two. Replace whatever value is there with the IP address provided. When someone calls up your site, your registrar will authoritatively answer that request and pass it on directly to the IP address you provided. For the CNAME, there are three entries you need to make:
- Point www to [your app].azurewebsites.net -- This tells DNS that [your app].azurewebsites.net should be the destination (canonical host) for any DNS queries that begin with www (like your site).
- Point awwverify and awwverify.www to awwverify.[your app].azurewebsites.net -- This provides for a DNS validation mechanism so your Azure Web site can validate that your domain registrar has been configured to allow the Azure Web site to serve as a canonical domain in the event that a CNAME lookup fails. Be sure to save your file/settings.
Step 4: Enter your custom domain name in the Manage Domains dialog and check for validity. Pull up the Domain Settings for your Web site again. This time, enter your new domain name. If you want the Azure Web site to respond to both www.[yoursite].com and [yoursite].com, you'll want to create both entries. You'll likely see a red dot indicating that validation and/or CNAME lookup has failed.
This is simply the way the Azure Web site tells you records have not yet propagated. You can happily continue using your Azure Web site using the [your app].azurewebsites.net URL. When you come back to the dialog, the verification should succeed and any request for [yoursite].com should automatically resolve to your Azure Web site app.
Rick Garibay is a developer, architect, writer and speaker. He's passionate about distributed technologies and application lifecycle management and is currently a distinguished engineer at Neudesic.
Posted by Rick Garibay on 04/15/2015 at 10:10 AM0 comments
If you've ever created a Microsoft Azure Web site, you know how easy it is to get up and running. Given this simplicity, it's easy to get ahead of yourself and create your site without giving much thought to the datacenter where it will be hosted. For example, if the majority of your Web traffic will originate on the West coast, but you set up your site on the East coast, you'd benefit significantly by the reduced latency of moving to a datacenter closer to your users.
Another reason to change datacenters is if you're using a database or other linked resource residing in a datacenter different than that of your Web site. In this case, you'd pay for outbound bandwidth which otherwise would be free if all assets were hosted in the same datacenter. There's no easy way to make this change. It can also be problematic if you've set up a custom domain name for your site.
Fortunately, all is not lost. You can get to the same destination in just a few steps. First, create a new Web site, give it a unique name, and select the region to which you want to "move" your active site. Next, deploy your application to the new site using your preferred deployment method (such as Git, GitHub, WebDeploy, Dropbox and so on). Once you've deployed your app, test it using the URL assigned to your app.
Next, follow my simple four-step guide for assigning a custom domain to your new site. This time, replace the current A record (pointing to the IP address for your current site) in your registrar's DNS settings with the new IP address provided by Azure when you select Manage Domain for the new site. You'll also want to update the awverify, awverify.www and www key/value pairs with the new value for your assigned URL. For example, if your old site is named oldsite.azurewebsites.com, replace "oldsite" with your new site name. Follow the rest of the steps on my post for completing the set up on your new site.
As you're probably aware, DNS entries can take up to 48 hours to propagate, but often update much quicker than this. During this time, requests can bounce between your old and new site. To minimize downtime and disruption to your new site, set the TTL on your registrar's domain settings to the lowest value possible (GoDaddy is 10 minutes). After a few minutes, try stopping your old site and using your custom domain URL; see if traffic is directed to your new site. If you get a pretty looking Azure page, it means that traffic is still flowing to your old site (which is now stopped).
Restart the old site, give it some time and perform this test again. Within an hour or so, traffic should be going to your new site, as evidenced by your custom URL resolving despite your old site being stopped. If you have a highly critical production site and can't afford any downtime, you'll want to look at tools like Azure Traffic Manager to keep downtime to an absolute minimum. After it's resolved, remove your old site and enjoy your site running on your shiny new datacenter.
Rick Garibay is a developer, architect, writer and speaker. He's passionate about distributed technologies and Application Lifecycle Management.
Posted by Rick Garibay on 04/15/2015 at 10:10 AM0 comments
When writing asynchronous code using the Microsoft .NET Framework 4.5, it's tempting and easy to declare methods such as async void. Don't do this. You should only use async void on top-level event handlers. Instead, declare your methods as async Task. The async void methods wind up being fire-and-forget methods. That's the case even when awaited, because there's no task to actually await. Also, exceptions won't be properly propagated to your try/catch block.
Brian Peek is a senior program manager at Microsoft. Previously a Microsoft MVP in the C# discipline, Peek specializes in software development using a variety of Microsoft technologies and platforms and is also well-versed in hardware projects, graphics and game development.
Posted by Brian Peek on 04/15/2015 at 10:10 AM0 comments
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Posted by Brian Noyes on 02/23/2015 at 10:10 AM0 comments
Have you ever noticed when using search engines that some of the results look much better than others? Why do some of the results have pictures and other specific information and links?
A good way to provide this additional information to search engines is using microdata, which adds extra metadata to HTML to better describe the content. A repository of some common vocabularies (schemas) is available at schema.org. The "person" schema could be used to further describe information about a blog:
<section itemtype="http://schema.org/Person" itemscope>
<h3 itemprop="name">Robert Boedigheimer</h3>
<img src="/images/robert.jpg" width="206" height="250" itemprop="image" /><br />
<a itemprop="url" href=" http://aspadvice.com/blogs/robertb/">Blog</a><br />
<a itemprop="url" href="http://tinyurl.com/boedie-mvp">MVP Profile</a>
The itemscope designates the area in the document where a particular schema is used. In this case it's using the http://schema.org/Person schema. The schema provides specific properties that can be attached to the content. The itemprop attribute with value of "name" indicates that this content represents the person's name. The <img> tag has added the itemprop of "image" so that search engines understand which of the various images on the page is a photo of the given person.
Adding microdata is really easy to do, and it's a great way to distinguish your products in search engine results and bring you new customers!
Posted by Robert Boedigheimer on 02/23/2015 at 10:10 AM0 comments