Example of a Blazor WebAssembly project that uses Entity Framework Core on the server for data access.
Do you prefer Blazor Server instead? No problem! The same project is implemented for server here.
I created this series of blog posts to explain the project in detail (note: series is valid up to commit e6ac27b):
- Build a Blazor WebAssembly Line of Business App Part 1: Intro and Data Access
- Build a Blazor WebAssembly Line of Business App Part 2: Client and Server
- Build a Blazor WebAssembly Line of Business App Part 3: Query, Delete and Concurrency
For the latest version, read about the latest round of refactoring here:
🙏 Thanks to John Barrett for helping identify initial issues.
- Application hosted authentication and registration
- Extended identity features to audit user creation, modification, email confirmation, and deletion
- Entity Framework Core
- Multiple data contexts
- Entity Framework Core logging
- Shadow properties: the database tracks row version, the user who created the entity and timestamp, and the user who last modified the entity and timestamp, without having to define these properties on the C# domain class
- Automatic audit that tracks changes with a before/after snapshot and is generated at the data context level
- Optimistic concurrency with delta resolution (when the database changes, the UI shows the changes so the user can overwrite or abort)
- Entity validation on the client and server using data annotations
- A grid that features paging, sorting, and filtering with debounce (i.e. typing three characters will result in just one database round trip)
- Dynamic filtering and sorting with serverside evaluation
- 99% of the UI is contained in a Razor class library that is usable from both Blazor WebAssembly and Blazor Server applications
- Example of the repository pattern: the client and server use the same interface with a different implementation
- Use of
IHttpClientFactory
to create a custom client with an authorization message handler
- .NET Core SDK (3.1.300 or later)
- Visual Studio Code, OR
- Visual Studio 2019 16.6 or later
-
Optionally fork the repository.
-
Clone the repository (or your fork):
git clone https://github.com/jeremylikness/BlazorWasmEFCoreExample.git
-
If you don't have
localdb
installed, updateappsettings.json
andappsettings.Development.json
in theContactsApp.Server
project to point to a valid database instance. -
The
DefaultConnection
is used for identity and can have any database name. -
The
blazorcontactsdb
is used for the application database and must matchContactContext.BlazorContactsDb
in theContactsApp.DataAccess
project (the default value isblazorcontactsdb
).
-
Open the solution file.
-
Ensure the
ContactsApp.Server
project is set as the start up project. -
Open the
NuGet Package Manager -> Package Manager Console
. -
In the console, with the server project selected, create the identity migration by typing:
Add-Migration -Context ApplicationAuditDbContext Initial
-
After it is complete, apply the migration:
Update-Database -Context ApplicationAuditDbContext
-
You are ready to launch the application.
See note at the end of the next section.
-
Navigate to the
ContactsApp/Server
folder. -
If you haven't installed the EF Core Command Line Interface (CLI), install it by following these instructions. Choose the latest stable version (the project file currently ships with version 3.1.4).
-
Run
dotnet ef migrations add --context ApplicationAuditDbContext Initial
to set up the identity database migrations.
-
Run
dotnet ef database update --context ApplicationAuditDbContext
to create the identity database.
-
Type
dotnet run
to start the server. Navigate to the port specified.
Note: the demo app is designed to create and populate the contacts database the first time you open the web page. This may result in a delay of up to several minutes on first load. This is normal and is just used to make setup easier. Subsequent runs should load faster.
The context for contacts (ContactContext
) resides in the ContactsApp.DataAccess
assembly. It is a .NET Standard class library and cannot be executed directly. I created a ContactContextFactory
in the ContactsApp.Server
project to enable migrations by using the SQL Server provider and loading the connection string. To create a migration, you must specify the executable startup project and the context name. This command will create a migration in the Migrations
folder named InitialContact
(assuming this is run from the root of the solution directory):
dotnet ef migrations add --startup-project ContactsApp/Server --context ContactContext InitialContact
Use the --namespace
parameter to specify a different namespace to help avoid conflicts with the identity context.
Submit any feedback, questions, suggestions, or issues here.
Regards,