A simple, unambitious, convention-based configuration injector for .NET using IConfiguration (Microsoft.Extensions.Configuration) with full support for AspNetCore.
- Install and reference the Nuget
NimbleConfig.DependencyInjection.Aspnetcore
In the NuGet Package Manager Console, type:
Install-Package NimbleConfig.DependencyInjection.Aspnetcore
- Define your settings class as follows
// Our setting is a string
public class SomeSetting: ConfigurationSetting<string>
{
}
// or for a more complex type
public class SomeComplexSetting : IComplexConfigurationSetting
{
public string SomeProperty { get; set; }
}- Add it to your
appsettings.json
{
"SomeSetting": "SomeValue",
"SomeComplexSetting": {
"SomeProperty": "SomeValue"
}
}- Inject and use it in your controllers, services etc
public class ValuesController : ControllerBase
{
private readonly SomeSetting _someSetting;
private readonly SomeComplexSetting _someComplexSetting;
public ValuesController(SomeSetting someSetting, SomeComplexSetting someComplexSetting)
{
_someSetting = someSetting;
_someComplexSetting = someComplexSetting;
}
public ActionResult<IEnumerable<string>> Get()
{
return new string[] {
_someSetting.Value,
_someComplexSetting.SomeProperty
};
}
}- In the
ConfigureServices()method in yourStartup.csadd the following to scan and inject settings types
public void ConfigureServices(IServiceCollection services)
{
// Other services go here
// Wire it up using the fluent api
services.AddConfigurationSettings().AndBuild();
}You can try this if you have to access some configuration setting prior to setting up the DI container. (Be warned! This will create a instance of a factory for each call. Only do this if there is no other way.)
// You still need to provide an instance of IConfiguration
var dirtySetting = configuration.QuickReadSetting<SomeSetting>();See the sample projects for more advanced use cases like complex types, enums and arrays. Checkout the ConsoleApp example on how to use it in a non aspnetcore app.
NimbleConfig provides full customisation of the setting creation via lifetime hooks in IConfigurationOptions. This is done via creating your own resolvers for the name (IKeyName), reader (IConfigurationReader), parser (IParser), constructor (IValueConstructor).
Example of setting a prefix uisng the configuration options lifetime hooks
var configOptions = ConfigurationOptions.Create()
.WithGlobalPrefix("MyAppSettings:") // Adding a global prefix to key names
.WithNamingScheme((type, name) => // Resolving type specific key names
{
if (type == typeof(SomeSetting)) // selectively apply logic
{
return new KeyName("AnotherPrefix", name.QualifiedKeyName);
}
return name; // return the auto-resolved one if no change is needed
});
// Then just pass it in to the builder uisng the fluent api
services.AddConfigurationSettings()
.UsingOptionsIn(configOptions)
.AndBuild();These fluent apis allow you to easily add your custom logic. They take a function which accepts a type and the auto-resolved instance as seen in the above example.
.WithNamingScheme()for setting configuration key names..WithReader()for setting a custom config reader..WithParser()for setting a custom parser..WithConstructor()for setting a custom value constructor.
Feel free to contribute and raise issues as you see fit :)
- Creator: Dasith Wijesiriwardena (http://dasith.me)