This is part of my ConfigureServices method:
public void ConfigureServices(IServiceCollection services)
{
...
//bus
services.AddSingleton<IRouteMessages, MessageRouter>();
services.AddSingleton<IBus, DirectBus>();
////
...
}
I'm trying to resolve the instance of IRouteMessages interface in my RegisterCommandHandlersInMessageRouter class:
public class RegisterCommandHandlersInMessageRouter
{
...
public static void BootStrap()
{
var router = CallContextServiceLocator.Locator.ServiceProvider.GetService(typeof (IRouteMessages));
new RegisterCommandHandlersInMessageRouter().RegisterRoutes(router as MessageRouter);
}
...
}
router variable is always null. Yet in my controllers where IRouterMessages is resolved automatically (in constructors) everything is fine.
I'm not sure what other parts of my code could be useful. I will provide more details.
Don't EVER use CallContextServiceLocator, this completely beats the purpose of having dependency injection. And NEVER relay on it.
CallContextServiceLocator is only used in some of the internal ASP.NET Core and is never be supposed to be used by developers creating ASP.NET Core applications. That being said, it can be removed, made internal or inaccessible at any time which would break existing applications.
Additionally, the CallContextServiceLocator only had runtime services registered (DNX Services, deprecated anyways). Source: David Fowl from ASP.NET Core team.
Infact CallContextServiceLocator is being removed in RC2, see the announcement.
Removed support for CallContextServiceLocator. Use PlatformServices and CompilationServices instead.
Instead, only use the built-in dependency injection, like this:
public static class RegisterCommandHandlersInMessageRouter
{
...
// This is extension method now
public static void RegisterCommandHandlers(this IServiceProvider services)
{
var router = services.GetService(typeof (IRouteMessages));
new RegisterCommandHandlersInMessageRouter().RegisterRoutes(router as MessageRouter);
}
...
}
and call it in your Startup.cs
public void Configure(IServiceProvider services)
{
...
services.RegisterCommandHandlers();
...
}
Related
I would like to reuse a library class that I made for some projects in Asp .Net Framework within an Asp .Net Core project on which I am now working.
For that project I have to use a MySQL database so I added the MySqlConnector NuGet package to my library class.
As the registered .NET Data Providers are not automatically added to the Global Assembly Cache I must register it manually thanks the call of that method DbProviderFactories.RegisterFactory("MySqlConnector", MySqlClientFactory.Instance) during application startup as mentionned here.
It's my first .Net core project so I don't know if that's how I should do it but I called that method in the Startup.cs file like this :
It is working but I am wondering if it's the right way to do it. Would you advise me another proper way to do it?
Thanks
There is nothing fundamentally wrong with your approach, IMO.
One problem I see is the task you're trying to run takes too long, in which case you're better off spawning a task.
The other is reusability, your code is coupled together. You could solve that by wrapping it in a class and injecting it into a middleware component by interface, and then calling a method. For example:
public interface ITask { void Run(); }
class RegisterMySqlTask : ITask { public void Run() { DbProviderFactories.RegisterFactory("MySqlConnector", MySqlClientFactory.Instance); } }
public void ConfigureServices(IServiceCollection services)
{
services.AddSingleton<ITask, RegisterMySqlTask>();
//rest goes here
}
public void Configure(IApplicationBuilder app)
{
app.Use(async (context, next) =>
{
context.RequestServices.GetRequiredService<ITask>().Run();
await next(context);
});
//rest goes here
}
Note, however, that this may be overcomplicating things. As I said, I believe that you are not doing anything wrong.
I'd like to add my app's build number to all logs in an ASP.NET Core 3.1 app that is using Application Insights for log storage. Is this possible without having to use BeginScope and EndScope everywhere? I assumed it would be part of the ConfigureLogging startup hook, but didn't see anything. I've done this in the past with Serilog's enrichers, but am not using that library currently.
You can achieve that with TelemetryInitializer. (https://learn.microsoft.com/en-us/azure/azure-monitor/app/api-filtering-sampling#addmodify-properties-itelemetryinitializer)
public class BuildNumberTelemetryInitializer : ITelemetryInitializer
{
public void Initialize(ITelemetry telemetry)
{
(telemetry as ISupportProperties).Properties.Add("BuildNumber", "ValueForBuildNumber");
}
You need to add this initializer to the config, which is done like below if you are on Asp.Net Core applications.
public void ConfigureServices(IServiceCollection services)
{
services.AddSingleton<ITelemetryInitializer, BuildNumberTelemetryInitializer >();
}
In my solution I have projects for my API, my Web App and also have another project which includes services, that are getting some information from a database and formatting them, these are currently only used by this API, but these could be used by other API projects in the future.
My API have a couple controllers that are returning JSON data from the result returned by the services.
In some cases the services needs to call the API to process some information before calling the request to the database. Since I have dev/staging/prod environment with their own URL I don't want to hardcode the URLs in the services I want to use DI to get these dynamicaly depending on the context.
In the Startup.cs of my API I have added services.AddHttpContextAccessor(); in the ConfigureServices(IServiceCollection services) section to gain access to the current http context :
public void ConfigureServices(IServiceCollection services)
{
...
services.AddHttpContextAccessor();
...
}
With that I know I can now access the information directly into my controller which I tried and it worked :
public class DataController : ControllerBase
{
...
private readonly string _baseUrl;
public FeaturesController(...
,IHttpContextAccessor httpContextAccessor)
{
...
_baseUrl = UrlHelpers.ShowBaseURL(httpContextAccessor) ?? throw new ArgumentNullException(nameof(_baseUrl));
}
}
public static class UrlHelpers
{
public static string ShowBaseURL(IHttpContextAccessor httpcontextaccessor)
{
var request = httpcontextaccessor.HttpContext.Request;
var absoluteUri = string.Concat(
request.Scheme,
"://",
request.Host.ToUriComponent(),
request.PathBase.ToUriComponent());
return absoluteUri;
}
}
I could do just about the same thing in the services but to me they should not act directly on the httpcontext, since this is not the job they are meant to do. I am sure I could do better by adding a class injected of some sort that would have then make the specific value available to my services.
I know I could also pass the _baseUrl directly as an argument when calling the services from my controller but since I am trying to better understand DI and use it I would rather find another way if it is viable.
I can't give credit but I went with Steven solution which make the most sens
I am trying to upgrade our current .Net Core application from 1.1 to 2.0 and am getting this runtime error: "The DbContext of type 'CoreContext' cannot be pooled because it does not have a single public constructor accepting a single parameter of type DbContextOptions".
It is caused by using the new IServiceCollection.AddDbContextPool<> function. When I use IServiceCollection.AddDbContext<> it still works.
This application is DB-First, so I generate all our contexts using 'Scaffold-DbContext'. Due to that, and the need to inject other services I have an extension on every context like this:
public partial class CoreContext
{
public CoreContext(
DbContextOptions<CoreContext> options,
IUserService userService,
IAuditRepository auditRepository
) : base(options) {...}
}
Whenever I run the Scaffold-DbContext I just remove the autogenerated Constructor from CoreContext, but even if I put it in there I still get this error.
public partial class CoreContext : DbContext
{
public CoreContext(DbContextOptions<CoreContext> options) : base(options) {}
}
I've already updated Program.cs to the new style:
public class Program
{
public static void Main(string[] args)
{
BuildWebHost(args).Run();
}
public static IWebHost BuildWebHost(string[] args) =>
WebHost.CreateDefaultBuilder(args)
.UseKestrel()
.UseContentRoot(Directory.GetCurrentDirectory())
.UseIISIntegration()
.UseStartup<Startup>()
.Build();
}
And the Startup.cs is pretty straightforward:
public IServiceProvider ConfigureServices(IServiceCollection services)
{
...
services.AddDbContextPool<CoreContext>(options => options.UseSqlServer(absConnectionString));
...
}
I am using Autofac for DI if that helps. For now I'll default back to the non-Pooling alternative, but it would be nice to take advantage of this feature.
When using DbContext Pooling, your own state (e.g. private fields) in your derived DbContext class will be preserved. Which means the lifetime of your services is now singleton. That's why you shouldn't have other injected services here.
But it's possible to query the required services this way:
First we should use the UseInternalServiceProvider method on DbContextOptionsBuilder to tell EF which service provider to use for its services. This service provider must have all the services configured for EF and any providers. So we should register EF Services manually:
services.AddEntityFrameworkSqlServer();
And then introduce the application's services provider which now includes the EF Services too:
services.AddDbContextPool<ApplicationDbContext>((serviceProvider, optionsBuilder) =>
{
optionsBuilder.UseSqlServer("...");
optionsBuilder.UseInternalServiceProvider(serviceProvider);
});
After that define these namespaces:
using Microsoft.EntityFrameworkCore.Infrastructure;
using Microsoft.Extensions.DependencyInjection;
And now you can access the registered services in the application within the
ApplicationDbContext class using the following methods
var siteSettings = this.GetService<IOptionsSnapshot<SiteSettings>>();
Or
var siteSettings = this.GetInfrastructure().GetRequiredService<IOptionsSnapshot<SiteSettings>>();
this is the current instance of the DbContext.
Remove the default constructor in the DbContext class, this worked for me
"because it does not have a single public constructor accepting a
single parameter of type DbContextOptions"
If you have any public constructors apart from one that accepts DbContextOptions, you need to remove them or make them non-public in order to use context pooling.
Also, there are restrictions on what can be done by overriding the OnConfiguring method. This is referenced in the documentation here but it isn't explicit about what those restrictions are: https://learn.microsoft.com/en-us/ef/core/what-is-new/index#dbcontext-pooling
This issue is mostly encountered when you "Scaffold-Dbcontext" and two constructors are generated.
Simple Solutions:
AddDbContextPool:
If you want to use AddDbContextPool, remove your empty constructor and maintain the one with the DbContextOptionsBuilder. Note that in this case you might have to provide the options, as suggested in the previous posts.
AddDbContext:
With AddDbContext, you can have both constructors/Overloads
Note: AddDbContextPool is preferred for performance reasons!
Try to use AddDbContext instead of AddDbContextPool. This helped me in the same situation.
services.AddDbContext<CoreContext>(options => options.UseSqlServer(absConnectionString));
in some case need to
remove the constractor with zero parameter
//public MyContext()
//{
//}
or use
"AddDbContext"
instead of
"AddDbContextPool"
in startup.cs => ConfigureServices()
services.AddDbContext(options =>
options.UseSqlServer(absConnectionString));
I have created the web application with the web api. The application contains some Controllers for example TodoController:
namespace TodoApi.Controllers
{
[Route("api/[controller]")]
public class TodoController : Controller
{
private readonly TodoContext _context;
public TodoController(TodoContext context)
{
_context = context;
}
[HttpGet]
public IEnumerable<TodoItem> GetAll()
{
return _context.TodoItems.ToList();
}
}
}
If I create the GET request - /api/todo - I get the list of Todos from database.
I have a list of controllers and api endpoints like above.
I would like distribute this api to another application ideally like middleware - my idea is register in Startup.cs like this:
public void ConfigureServices(IServiceCollection services)
{
services.AddTodoApi();
}
public void Configure(IApplicationBuilder app, IHostingEnvironment env, ILoggerFactory loggerFactory)
{
app.UseTodoApi();
}
This will be awesome use case for my api but I don't know how this controllers api endpoints rewrite like middleware and return same JSON data same approache like using classic Controllers.
How can I write the middleware in .NET Core for creating API endpoints?
Instead of the separate middleware, you may configure the MVC middleware to discovery controllers from another assembly:
// using System.Reflection;
public void ConfigureServices(IServiceCollection services)
{
...
services
.AddMvc()
.AddApplicationPart(typeof(TodoController).GetTypeInfo().Assembly);
Controllers are part of MVC middleware, they are not a separate part of request pipeline (but this is what middlewares are). When you register the custom middleware, it by default invokes on each request and you have HttpContext context as an input parameter to work with/edit
Request/Response data. But ASP.NET Core provides Map* extensions that are used as a convention for branching the pipeline.
Map branches the request pipeline based on matches of the given request path. If the request path starts with the given path, the branch is executed.
Example:
private static void HandleMapTodo(IApplicationBuilder app)
{
app.Run(async context =>
{
await context.Response.WriteAsync("/api/todo was handled");
});
}
public void Configure(IApplicationBuilder app)
{
app.Map("/api/todo", HandleMapTodo);
}
Note, that as middleware knows nothing about MVC middleware, you have only access to "raw" request and do not have features like model binding or MVC action filters.
Because it looks like the perfect microservices approach (similar than what my team is doing right now) I'd create a client assembly that can consume your API, the one that contains your TodoController, if you define a contract, and interface, for that API you can register it in your other assembly as it was a midleware and also you could mock that behaviour in your unit tests.
So, as I said, you could inject your client in ConfigureServices method, you can create:
public static IServiceCollection AddTodoRestClient(this IServiceCollection services)
{
services.AddSingleton<ITodoRestClient, TodoRestClient>();
return services;
}
Also consider that you will need to provide the enpoint so, it might looks like:
public static IServiceCollection AddConfiguredTodoClient(this IServiceCollection services, string todoEndpoint)
{
AddTodoClient(services);
ITodoRestClient todoRestClient = services.BuildServiceProvider().GetService<ITodoRestClient>();
// Imagine you have a configure method...
todoRestClient.Configure(services, todoEndpoint);
return services;
}
You can create those methods in a TodoRestClientInjector class and use them in Configure method on your startup.
I hope it helps
--- MORE DETAILS TO ANSWER COMMENTS ---
For me TodoClient is a Rest client library that implements calls to the ToDo API, (I've edited previous code to be TodoRestClient) methos like, i.e., CreateTodoItem(TodoDto todoItem) which implementation would call to the TodoController.Post([FromBody] item) or GetTodos() which wuold call TodoController.Get() and so on and so forth....
Regarding the enpoints... This approach implies to have (at least) two different applications (.NET Core apps), on the one hand the ASP NET Core app that has your TodoController and on the other hand a console application or another ASP NET Core API on which startup class you'll do the inyection adn the Rest client (the Todo Rest client) configuration ...
In a microservices approach using docker, in a dev environment, you'll use docker-compose-yml, but in a traditional approach you'll use concrete ports to define the endpoints...
So, imagine that you have in the second service a controller that need to use TodoController, to achieve so I'll use the above aproach and the "SecondController" would look like:
public class SecondController : Controller
{
private readonly SecondContext _context;
private readonly TodoRestClient _todoRestClient;
public TodoController(SecondContext context, ITodoRestClient todoRestClient)
{
_context = context;
_todoRestClient= todoRestClient;
}
// Whatever logic in this second controller... but the usage would be like:
_todoRestClient.GetTodos()
}
Just few final hints: it's key to minimize calls between services because it increases latency, and more and more if this happens on cascade. Also consider Docker usage, looks challenging but it is quite easy to start and, indeed, is thought to be used in scenarios that the one you presented and solutions like mine.
Again, I hope it helps.
Juan