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Shahed Chowdhuri @ Microsoft for .NET

Posted on • Originally published at wakeupandcode.com on

Validation in ASP .NET Core 3.1

This is the twenty-second of a new series of posts on ASP .NET Core 3.1 for 2020. In this series, we’ll cover 26 topics over a span of 26 weeks from January through June 2020, titled ASP .NET Core A-Z! To differentiate from the 2019 series, the 2020 series will mostly focus on a growing single codebase (NetLearner!) instead of new unrelated code snippets week.

Previous post:

NetLearner on GitHub :

In this Article:

V is for Validation

To build upon a previous post on Forms and Fields in ASP .NET Core, this post covers Validation in ASP .NET Core. When a user submits form field values, proper validation can help build a more user-friendly and secure web application. Instead of coding each view/page individually, you can simply use server-side attributes in your models/viewmodels.

NOTE : As of ASP .NET Core 2.2, validation may be skipped automatically if ASP .NET Core decides that validation is not needed. According to the β€œWhat’s New” release notes, this includes primitive collections (e.g. a byte[] array or a Dictonary key-value pair collection)

Validation in ASP .NET Core

Validation Attributes

To implement model validation with [Attributes], you will typically use Data Annotations from the System.ComponentModel.DataAnnotations namespace. The list of attribute does go beyond just validation functionality though. For example, the DataType attribute takes a datatype parameter, used for inferring the data type and used for displaying the field on a view/page (but does not provide validation for the field).

Common attributes include the following

  • Range : lets you specify min-max values, inclusive of min and max
  • RegularExpression : useful for pattern recognition, e.g. phone numbers, zip/postal codes
  • Required : indicates that a field is required
  • StringLength : sets the maximum length for the string entered
  • MinLength : sets the minimum length of an array or string data

From the sample code, here is an example from the LearningResource model class in NetLearnerβ€˜s shared library:

public class **LearningResource** { public int Id { get; set; } **[DisplayName("Resource")] [Required] [StringLength(100)]** public string Name { get; set; } **[DisplayName("URL")] [Required] [StringLength(255)] [DataType(DataType.Url)]** public string Url { get; set; } public int ResourceListId { get; set; } **[DisplayName("In List")]** public ResourceList ResourceList { get; set; } **[DisplayName("Feed Url")]** public string ContentFeedUrl { get; set; } public List<LearningResourceTopicTag> LearningResourceTopicTags { get; set; }}

From the above code, you can see that:

  • The value for Name is a required string, needs to be less than 100 characters
  • The value for Url is a required string, needs to be less than 255 characters
  • The value for ContentFeedUrl can be left blank, but has to be less than 255 characters.
  • When the DataType is provided (e.g. DataType.Url , Currency, Date, etc), the field is displayed appropriately in the browser, with the proper formatting
  • For numeric values, you can also use the [Range(x,y)] attribute, where x and y sets the minimum and maximum values allowed for the number

Here’s what it looks like in a browser when validation fails:

Validation errors in NetLearner.MVC

Validation errors in NetLearner.Pages

Validation errors in NetLearner.Blazor

The validation rules make it easier for the user to correct their entries before submitting the form.

  • In the above scenario, the β€œis required” messages are displayed directly in the browser through client-side validation.
  • For field-length restrictions, the client-side form will automatically prevent the entry of string values longer than the maximum threshold
  • If a user attempts to circumvent any validation requirements on the client-side, the server-side validation will automatically catch them.

In the MVC and Razor Pages web projects, the validation messages are displayed with the help of

and elements, using asp-validation-summary and asp-validation-for.

NetLearner.Mvc : /Views/LearningResources/Create.cshtml

<div **asp-validation-summary** ="ModelOnly" class="text-danger"></div> <div class="form-group"> <label asp-for="Name" class="control-label"></label> <input asp-for="Name" class="form-control" /> <span **asp-validation-for** ="Name" class="text-danger"></span> </div>

NetLearner.Pages : /Pages/LearningResources/Create.cshtml

<div **asp-validation-summary** ="ModelOnly" class="text-danger"></div> <div class="form-group"> <label asp-for="LearningResource.Name" class="control-label"></label> <input asp-for="LearningResource.Name" class="form-control" /> <span **asp-validation-for** ="LearningResource.Name" class="text-danger"></span> </div>

In the Blazor project, the β€œThe DataAnnotationsValidator component attaches validation support using data annotations” and β€œThe ValidationSummary component summarizes validation messages”.

NetLearner.Blazor : /Pages/ResourceDetail.razor

<EditForm Model="@LearningResourceObject" OnValidSubmit="@HandleValidSubmit"> < **DataAnnotationsValidator** /> < **ValidationSummary** />

For more information on Blazor validation, check out the official documentation at:

Server-Side Validation

Validation occurs before an MVC controller action (or equivalent handler method for Razor Pages) takes over. As a result, you should check to see if the validation has passed before continuing next steps.

e.g. in an MVC controller

[**HttpPost**][**ValidateAntiForgeryToken**]public async Task<IActionResult> **Create** (...){ if ( **ModelState.IsValid** ) { // ... return RedirectToAction(nameof(Index)); } return View(...);}

e.g. in a Razor Page’s handler code:

public async Task<IActionResult> **OnPostAsync** (){ if (! **ModelState.IsValid** ) { return Page(); } //... return RedirectToPage(...);}

Note that ModelState. IsValid is checked in both the Create () action method of an MVC Controller or the OnPostAsync () handler method of a Razor Page’s handler code. If IsValid is true, perform actions as desired. If false, reload the current view/page as is.

In the Blazor example, the OnValidSubmit event is triggered by < EditForm > when a form is submitted, e.g.

< **EditForm** Model="@SomeModel" **OnValidSubmit** ="@ **HandleValidSubmit**">

The method name specified refers to a C# method that handles the form submission when valid.

private async void **HandleValidSubmit** (){ ...}

Client-Side Validation

It goes without saying that you should always have server-side validation. All the client-side validation in the world won’t prevent a malicious user from sending a GET/POST request to your form’s endpoint. Cross-site request forgery in the Form tag helper does provide a certain level of protection, but you still need server-side validation. That being said, client-side validation helps to catch the problem before your server receives the request, while providing a better user experience.

When you create a new ASP .NET Core project using one of the built-in templates for MVC or Razor Pages, you should see a shared partial view called _ValidationScriptsPartial.cshtml. This partial view should include references to jQuery unobtrusive validation, as shown below:

<script src="~/lib/jquery-validation-unobtrusive/jquery.validate.unobtrusive.min.js"></script>

If you create a scaffolded controller with views/pages, you should see the following reference at the bottom of your page or view.

e.g. at the bottom of Create.cshtml view

@section Scripts { @{await Html.RenderPartialAsync(" **\_ValidationScriptsPartial**");}}

e.g. at the bottom of the Create.cshtml page

@section Scripts { @{await Html.RenderPartialAsync(" **\_ValidationScriptsPartial**");}}

Note that the syntax is identical whether it’s an MVC view or a Razor page. If you ever need to disable client-side validation for some reason, that can be accomplished in different ways, whether it’s for an MVC view or a Razor page. (Blazor makes use of the aforementioned EditForm element in ASP .NET Core to include built-in validation, with the ability to track whether a submitted form is valid or invalid.)

From the official docs, the following code should be used within the ConfigureServices () method of your Startup.cs class, to set ClientValidationEnabled to false in your HTMLHelperOptions configuration.

services. **AddMvc** (). **AddViewOptions** (options =>{ if (\_env.IsDevelopment()) { options.HtmlHelperOptions. **ClientValidationEnabled** = false; }});

Also mentioned in the official docs, the following code can be used for your Razor Pages, within the ConfigureServices () method of your Startup.cs class.

services.Configure< **HtmlHelperOptions** >(o => o. **ClientValidationEnabled** = false);

Client to Server with Remote Validation

If you need to call a server-side method while performing client-side validation, you can use the [Remote] attribute on a model property. You would then pass it the name of a server-side action method which returns an IActionResult ** with a true boolean result for a valid field. This [Remote**] attribute is available in the Microsoft.AspNetCore.Mvc namespace, from the Microsoft.AspNetCore.Mvc.ViewFeatures NuGet package.

The model property would look something like this:

[**Remote** (action: " **MyActionMethod**", controller: " **MyControllerName**")]public string **MyProperty** { get; set; }

In the controller class, (e.g. MyControllerName ), you would define an action method with the name specified in the [Remote] attribute parameters, e.g. *MyActionMethod. *

[**AcceptVerbs** ("Get", "Post")]public IActionResult **MyActionMethod** (...){ if (TestForFailureHere()) { return **Json** ("Invalid Error Message"); } return **Json(true)**;}

You may notice that if the validation fails, the controller action method returns a JSON response with an appropriate error message in a string. Instead of a text string, you can also use a false, null, or undefined value to indicate an invalid result. If validation has passed, you would use Json(true) to indicate that the validation has passed.

So, when would you actually use something like this? Any scenario where a selection/entry needs to be validated by the server can provide a better user experience by providing a result as the user is typing, instead of waiting for a form submission. For example: imagine that a user is buying online tickets for an event, and selecting a seat number displayed on a seating chart. The selected seat could then be displayed in an input field and then sent back to the server to determine whether the seat is still available or not.

Custom Attributes

In addition to all of the above, you can simply build your own custom attributes. If you take a look at the classes for the built-in attributes, e.g. RequiredAttribute, you will notice that they also extend the same parent class:

  • System.ComponentModel.DataAnnotations.ValidationAttribute

You can do the same thing with your custom attribute’s class definition:

public class **MyCustomAttribute** : ValidationAttribute { // ...}

The parent class ValidationAttribute, has a virtual IsValid () method that you can override to return whether validation has been calculated successfully (or not).

public class **MyCustomAttribute** : **ValidationAttribute** { // ... protected override ValidationResult **IsValid** ( object value, ValidationContext validationContext) { if (TestForFailureHere()) { return new **ValidationResult** ("Invalid Error Message"); } return **ValidationResult.Success** ; }}

You may notice that if the validation fails, the IsValid() method returns a ValidationResult () with an appropriate error message in a string. If validation has passed, you would return ValidationResult.Success to indicate that the validation has passed.

References

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