Tuesday, 16 September 2014

MVC-Adding Validation

In this this section you'll add validation logic to the Movie model,  and you'll ensure that the validation rules are enforced any time a user  attempts to create or edit a movie using the application.

Keeping Things DRY

One of the core design tenets of ASP.NET MVC is  DRY ("Don't Repeat  Yourself"). ASP.NET MVC encourages you to specify functionality or behavior only  once, and then have it be reflected everywhere in an application. This reduces  the amount of code you need to write and makes the code you do write less error  prone and easier to maintain.
The validation support provided by ASP.NET MVC and Entity Framework Code  First is a great example of the DRY principle in action. You can declaratively  specify validation rules in one place (in the model class) and the rules  are enforced everywhere in the application.
Let's look at how you can take advantage of this validation support in the  movie application.

Adding Validation Rules to the Movie Model

You'll begin by adding some validation logic to the Movie class.
Open the Movie.cs file. Notice the System.ComponentModel.DataAnnotations namespace does not containSystem.Web.  DataAnnotations provides a built-in set of  validation attributes that you can apply declaratively to any class or property.  (It also contains formatting attributes like DataType that help with formatting and don't provide any validation.)
Now update the Movie class to take advantage of the built-in RequiredStringLength,  RegularExpression, andRange validation attributes. Replace the Movie  class with the following:
public class Movie
{
    public int ID { get; set; }




    [StringLength(60, MinimumLength = 3)]
    public string Title { get; set; }




    [Display(Name = "Release Date")]
    [DataType(DataType.Date)]
    [DisplayFormat(DataFormatString = "{0:yyyy-MM-dd}", ApplyFormatInEditMode = true)]
    public DateTime ReleaseDate { get; set; }




    [RegularExpression(@"^[A-Z]+[a-zA-Z''-'\s]*$")]
    [Required]
    [StringLength(30)]
    public string Genre { get; set; }




    [Range(1, 100)]
    [DataType(DataType.Currency)]
    public decimal Price { get; set; }




    [RegularExpression(@"^[A-Z]+[a-zA-Z''-'\s]*$")]
    [StringLength(5)]
    public string Rating { get; set; }
}
The StringLength attribute sets the maximum length of the string,  and it sets this limitation on the database, therefore the database schema will  change. Right click on the Movies table in Server  explorer and click Open Table Definition:
In the image above, you can see all the string fields are set to  NVARCHAR  (MAX).  We will use migrations to update the schema. Build the solution, and then open the Package Manager Console  window and enter the following commands:
add-migration DataAnnotations
update-database
When this command finishes, Visual Studio opens the class file that defines  the new DbMIgration derived class with the name specified (DataAnnotations), and in the Up method you can see the code that updates the schema constraints:
public override void Up()
{
    AlterColumn("dbo.Movies", "Title", c => c.String(maxLength: 60));
    AlterColumn("dbo.Movies", "Genre", c => c.String(nullable: false, maxLength: 30));
    AlterColumn("dbo.Movies", "Rating", c => c.String(maxLength: 5));
}
The Genre  field is are no longer nullable (that is, you must  enter a value). The Rating field has a maximum length of 5 and Title  has a maximum length of 60.  The minimum length of 3 on Title   and the range on Price did not create schema changes.
Examine the Movie schema:
The string fields show the new length limits and Genre is no longer  checked as nullable.
The validation attributes specify behavior that you want to enforce on the model  properties they are applied to. TheRequired  and MinimumLength attributes indicates that a property must have a  value; but nothing prevents a user from entering white space to satisfy this  validation.  The RegularExpression attribute is used to limit what characters can be input.  In the code above, Genre and Rating must use only  letters (white space, numbers and special characters are not allowed). The Range   attribute constrains a value to within a specified range. The StringLength  attribute lets you set the maximum length of a string property, and optionally  its minimum length. Value types (such as decimal, int, float, DateTime)  are inherently required  and don't need the Required attribute.
Code First ensures that the validation rules you specify on a model class are  enforced before the application saves changes in the database. For example, the  code below will throw a DbEntityValidationException exception when theSaveChanges method is  called, because several required Movie property values are missing:
MovieDBContext db = new MovieDBContext();
Movie movie = new Movie();
movie.Title = "Gone with the Wind";
db.Movies.Add(movie);
db.SaveChanges();        // <= Will throw server side validation exception 

The code above throws the following exception:
Validation failed for one or more entities. See  'EntityValidationErrors' property for more details.
Having validation rules automatically enforced by the .NET Framework helps  make your application more robust. It also ensures that you can't forget to  validate something and inadvertently let bad data into the database.

Validation Error UI in ASP.NET MVC

Run the application and navigate to the /Movies URL.
Click the Create New link to add a new movie. Fill out the  form with some invalid values. As soon as jQuery client side  validation detects the error, it displays an error message.
8_validationErrors
Note to support jQuery validation for non-English locales  that use a comma (",") for a decimal point, you must include the NuGet  globalize as described previously in this tutorial.
Notice how the form has automatically used a red border color to highlight  the text boxes that contain invalid data and has emitted an appropriate  validation error message next to each one. The  errors are enforced both client-side (using JavaScript and jQuery) and server-side (in case  a user has JavaScript disabled).
A real benefit is that you didn't need to change a single line of code in the MoviesController class or in theCreate.cshtml view in  order to enable this validation UI. The controller and views you created earlier  in this tutorial automatically picked up the validation rules that you specified  by  using validation attributes on the properties of the Movie model class.  Test validation using the Edit action method, and the same  validation is applied.
The form data is not sent to the  server until there are no client side validation errors. You can verify this by  putting a break point in the HTTP Post method, by using the fiddler tool, or the IE  F12 developer tools.

How Validation Occurs in the Create View and Create Action Method

You might wonder how the validation UI was generated without any updates to  the code in the controller or views. The next listing shows what the Create methods in the MovieController class look like.  They're unchanged from how you created them earlier in this tutorial.
public ActionResult Create()
{
    return View();
}
// POST: /Movies/Create
// To protect from overposting attacks, please enable the specific properties you want to bind to, for 
// more details see http://go.microsoft.com/fwlink/?LinkId=317598.
[HttpPost]
[ValidateAntiForgeryToken]
public ActionResult Create([Bind(Include = "ID,Title,ReleaseDate,Genre,Price,Rating")] Movie movie)
{
    if (ModelState.IsValid)
    {
        db.Movies.Add(movie);
        db.SaveChanges();
        return RedirectToAction("Index");
    }
    return View(movie);
}
The first (HTTP GET) Create action method displays the initial Create form. The second  ([HttpPost]) version handles  the form post. The second Create method (The HttpPost version) calls ModelState.IsValid to check whether the movie has any validation errors.  Calling this method evaluates any validation attributes that have been applied  to the object. If the object has validation errors, the Create  method re-displays the form. If there are no errors, the method saves the new  movie in the database. In our movie example, the form is not posted  to the server when there are validation errors detected on the client side;  the second Create method is never called. If you disable JavaScript  in your browser, client validation is disabled and the HTTP POST Create method callsModelState.IsValid to check whether the movie has any validation errors.
You can set a break point in  the HttpPost Create method  and verify the method is never called, client side validation will not submit  the form data when validation errors are detected. If you disable JavaScript in  your browser, then submit the form with errors, the break point will be hit.  You still get full validation without JavaScript. The following image shows how to disable JavaScript in  Internet Explorer.
The following image shows how to disable JavaScript in the FireFox browser.
The following image shows how to disable JavaScript in the Chrome browser.

Below is the Create.cshtml view template that you scaffolded earlier  in the tutorial. It's used by the action methods shown above both to display the  initial form and to redisplay it in the event of an error.
@model MvcMovie.Models.Movie
@{
    ViewBag.Title = "Create";
}
<h2>Create</h2>
@using (Html.BeginForm()) 
{
    @Html.AntiForgeryToken()    
    <div class="form-horizontal">
        <h4>Movie</h4>
        <hr />
        @Html.ValidationSummary(true)
        <div class="form-group">
            @Html.LabelFor(model => model.Title, new { @class = "control-label col-md-2" })
            <div class="col-md-10">
                @Html.EditorFor(model => model.Title)
                @Html.ValidationMessageFor(model => model.Title)
            </div>
        </div>
        @*Fields removed for brevity.*@        




        <div class="form-group">
            <div class="col-md-offset-2 col-md-10">
                <input type="submit" value="Create" class="btn btn-default" />
            </div>
        </div>
    </div>
}
<div>
    @Html.ActionLink("Back to List", "Index")
</div>
@section Scripts {
    @Scripts.Render("~/bundles/jqueryval")
}
Notice how the code uses an Html.EditorFor helper to output the <input> element for each Movie property. Next to this  helper is a call to the Html.ValidationMessageFor helper method.  These two helper methods work with the model object that's passed by the  controller to the view (in this case, a Movie object). They  automatically look for validation attributes specified on the model and display  error messages as appropriate.
What's really nice about this approach is that neither the controller nor the  Create view template knows anything about the actual validation rules being  enforced or about the specific error messages displayed. The validation rules  and the error strings are specified only in the Movie class. These  same validation rules are automatically applied to the Edit view and any other  views templates you might create that edit your model.
If you want to change the validation logic later, you can do so in exactly  one place by adding validation attributes to the model (in this example, the movie class). You won't have to worry about different parts of the application  being inconsistent with how the rules are enforced — all validation logic will  be defined in one place and used everywhere. This keeps the code very clean, and  makes it easy to maintain and evolve. And it means that that you'll be fully  honoring the DRY principle.

Using DataType Attributes

Open the Movie.cs file and examine the Movie class. The System.ComponentModel.DataAnnotations namespace provides  formatting attributes in addition to the built-in set of validation attributes.  We've already applied  aDataType enumeration value to the release date and to the price  fields. The following code shows the ReleaseDateand Price  properties with the appropriate DataType attribute.
        [DataType(DataType.Date)] 
        public DateTime ReleaseDate { get; set; }
       
        [DataType(DataType.Currency)] 
        public decimal Price { get; set; }
The  DataType attributes only provide hints for the view engine to format  the data (and supply attributes such as<a> for URL's and  <a  href="mailto:EmailAddress.com"> for email. You can use the RegularExpressionattribute to validate the format of the data. The DataType attribute is used to specify a data type that is more specific than  the database intrinsic type, they are not validation  attributes. In this  case we only want to keep track of the date, not the date and time. The  DataType Enumeration provides for many data types, such as Date, Time,  PhoneNumber, Currency, EmailAddress and more. The DataType  attribute can also enable the application to automatically provide type-specific  features. For example, a mailto: link can be created for DataType.EmailAddress,  and a date selector can be provided for  DataType.Date in browsers that support  HTML5. The DataType attributes emits HTML 5  data-  (pronounced data dash) attributes that HTML 5  browsers can understand. The DataType attributes do not provide any validation. 
DataType.Date does not specify the format of the date  that is displayed. By default, the data field is displayed according to the default formats  based on the server's CultureInfo.
The DisplayFormat attribute is used to explicitly specify the  date format:
[DisplayFormat(DataFormatString = "{0:yyyy-MM-dd}", ApplyFormatInEditMode = true)]
public DateTime EnrollmentDate { get; set; }
The ApplyFormatInEditMode setting specifies that the specified formatting should also be applied when the value is displayed in a text box for editing. (You might not want that for some fields — for example, for currency values, you might not want the currency symbol in the text box for editing.)
You can use the DisplayFormat attribute by itself, but it's generally a good idea to use the DataType  attribute also. The DataType attribute conveys the semantics of the data as  opposed to how to render it on a screen, and provides the following benefits  that you don't get with DisplayFormat:
  • The browser can enable HTML5 features (for example to show a  calendar control, the locale-appropriate currency symbol, email links, etc.).
  • By default, the browser will render data using the correct format based on your locale.
  • The DataType attribute can enable MVC to choose the right field template to  render the data (theDisplayFormat if used by itself uses the string template). For more information, see Brad  Wilson's ASP.NET MVC 2 Templates. (Though written for MVC 2, this article still applies to the current version of ASP.NET  MVC.)
If you use the DataType attribute with a date field, you have to specify the DisplayFormat attribute also in order to ensure that the field renders  correctly in Chrome browsers. For more information, see this StackOverflow thread
Note: jQuery validation does not work with the Range attribute and DateTime. For example, the following code will always display a client  side validation error, even when the date is in the specified range:
[Range(typeof(DateTime), "1/1/1966", "1/1/2020")]
You will need to disable  jQuery date validation to use the  Range attribute with DateTime. It's generally not a good practice to compile hard dates in  your models, so using the Rangeattribute and DateTime is discouraged.
The following code shows combining attributes on one line:
public class Movie
{
   public int ID { get; set; }
   [Required,StringLength(60, MinimumLength = 3)]
   public string Title { get; set; }
   [Display(Name = "Release Date"),DataType(DataType.Date)]
   public DateTime ReleaseDate { get; set; }
   [Required]
   public string Genre { get; set; }
   [Range(1, 100),DataType(DataType.Currency)]
   public decimal Price { get; set; }
   [Required,StringLength(5)]
   public string Rating { get; set; }
}

In the next part of the series, we'll review the application and make some  improvements to the automatically generated Details and Delete methods.

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