ASP.NET Core - 选项系统之源码介绍

.NET Core 选项系统的主要实现在 Microsoft.Extensions.Options 和 Microsoft.Extensions.Options.ConfigurationExtensions 两个 Nuget 包。对于一个框架的源码进行解读,我们可以从我们常用的框架中的类或方法入手,这些类或方法就是我们解读的入口。

从上面对选项系统的介绍中,大家也可以看出,日常对选项系统的使用涉及到的主要有 Configure 方法,有 IOptions、IOptionsSnapshot、IOptionMonitor 等接口。

Configure

首先看选项注册,也就是 Configure 方法,注册相关的方法都是扩展方法,上面也讲到 Configure 方法有多个扩展来源,其中最常用的是 OptionsConfigurationServiceCollectionExtensions 中的 Configure 方法,该方法用于从配置信息中读取配置并绑定为选项,如下,这里将相应的方法单独摘出来了。

点击查看代码 OptionsConfigurationServiceCollectionExtensions.Configure
public static class OptionsConfigurationServiceCollectionExtensions
{
	/// <summary>
	/// Registers a configuration instance which TOptions will bind against.
	/// </summary>
	/// <typeparam name="TOptions">The type of options being configured.</typeparam>
	/// <param name="services">The <see cref="IServiceCollection"/> to add the services to.</param>
	/// <param name="config">The configuration being bound.</param>
	/// <returns>The <see cref="IServiceCollection"/> so that additional calls can be chained.</returns>
	[RequiresUnreferencedCode(OptionsBuilderConfigurationExtensions.TrimmingRequiredUnreferencedCodeMessage)]
	public static IServiceCollection Configure<[DynamicallyAccessedMembers(DynamicallyAccessedMemberTypes.All)] TOptions>(this IServiceCollection services, IConfiguration config) where TOptions : class
	=> services.Configure<TOptions>(Options.Options.DefaultName, config);
	/// <summary>
	/// Registers a configuration instance which TOptions will bind against.
	/// </summary>
	/// <typeparam name="TOptions">The type of options being configured.</typeparam>
	/// <param name="services">The <see cref="IServiceCollection"/> to add the services to.</param>
	/// <param name="name">The name of the options instance.</param>
	/// <param name="config">The configuration being bound.</param>
	/// <returns>The <see cref="IServiceCollection"/> so that additional calls can be chained.</returns>
	[RequiresUnreferencedCode(OptionsBuilderConfigurationExtensions.TrimmingRequiredUnreferencedCodeMessage)]
	public static IServiceCollection Configure<[DynamicallyAccessedMembers(DynamicallyAccessedMemberTypes.All)] TOptions>(this IServiceCollection services, string name, IConfiguration config) where TOptions : class
	=> services.Configure<TOptions>(name, config, _ => { });
	/// <summary>
	/// Registers a configuration instance which TOptions will bind against.
	/// </summary>
	/// <typeparam name="TOptions">The type of options being configured.</typeparam>
	/// <param name="services">The <see cref="IServiceCollection"/> to add the services to.</param>
	/// <param name="config">The configuration being bound.</param>
	/// <param name="configureBinder">Used to configure the <see cref="BinderOptions"/>.</param>
	/// <returns>The <see cref="IServiceCollection"/> so that additional calls can be chained.</returns>
	[RequiresUnreferencedCode(OptionsBuilderConfigurationExtensions.TrimmingRequiredUnreferencedCodeMessage)]
	public static IServiceCollection Configure<[DynamicallyAccessedMembers(DynamicallyAccessedMemberTypes.All)] TOptions>(this IServiceCollection services, IConfiguration config, Action<BinderOptions> configureBinder)
	where TOptions : class
	=> services.Configure<TOptions>(Options.Options.DefaultName, config, configureBinder);
	/// <summary>
	/// Registers a configuration instance which TOptions will bind against.
	/// </summary>
	/// <typeparam name="TOptions">The type of options being configured.</typeparam>
	/// <param name="services">The <see cref="IServiceCollection"/> to add the services to.</param>
	/// <param name="name">The name of the options instance.</param>
	/// <param name="config">The configuration being bound.</param>
	/// <param name="configureBinder">Used to configure the <see cref="BinderOptions"/>.</param>
	/// <returns>The <see cref="IServiceCollection"/> so that additional calls can be chained.</returns>
	[RequiresUnreferencedCode(OptionsBuilderConfigurationExtensions.TrimmingRequiredUnreferencedCodeMessage)]
	public static IServiceCollection Configure<[DynamicallyAccessedMembers(DynamicallyAccessedMemberTypes.All)] TOptions>(this IServiceCollection services, string name, IConfiguration config, Action<BinderOptions> configureBinder)
	where TOptions : class
	{
	if (services == null)
	{
	throw new ArgumentNullException(nameof(services));
	}
	if (config == null)
	{
	throw new ArgumentNullException(nameof(config));
	}
	services.AddOptions();
	services.AddSingleton<IOptionsChangeTokenSource<TOptions>>(new ConfigurationChangeTokenSource<TOptions>(name, config));
	return services.AddSingleton<IConfigureOptions<TOptions>>(new NamedConfigureFromConfigurationOptions<TOptions>(name, config, configureBinder));
	}
}

其中 IOptionsChangeTokenSource 接口是用来监听配置变化的服务,这个后面讲。

另外还有 OptionsServiceCollectionExtensions 中的 Configure 方法,用于直接通过委托对选项类进行配置。

点击查看代码 OptionsServiceCollectionExtensions.Configure
public static class OptionsServiceCollectionExtensions
{
	public static IServiceCollection Configure<TOptions>(this IServiceCollection services, Action<TOptions> configureOptions) where TOptions : class
	=> services.Configure(Options.Options.DefaultName, configureOptions);
	public static IServiceCollection Configure<TOptions>(this IServiceCollection services, string name, Action<TOptions> configureOptions)
	where TOptions : class
	{
	if (services == null)
	{
	throw new ArgumentNullException(nameof(services));
	}
	if (configureOptions == null)
	{
	throw new ArgumentNullException(nameof(configureOptions));
	}
	services.AddOptions();
	services.AddSingleton<IConfigureOptions<TOptions>>(new ConfigureNamedOptions<TOptions>(name, configureOptions));
	return services;
	}
}

可以看出,其实选项系统中的选项都是命名模式的,默认名称为 Options.Options.DefaultName,实际就是 string.Empty。当我们调用 Configure 方法对选项进行配置的时候,实际上时调用了 AddOptions 方法,并且往容器中添加了一个单例的实现了 IConfigureOptions 接口的实现。

IConfigureOptions、IConfigureNamedOptions、IPostConfigureOptions

其中 IConfigureOptions 是选项配置行为服务接口,ConfigureOptions 是它的默认实现,该类的内容很简单,它的内部主要就是保存了一个委托,用于记录使用者对选项的配置操作。

点击查看代码 ConfigureOptions
public class ConfigureOptions<TOptions> : IConfigureOptions<TOptions> where TOptions : class
{
	/// <summary>
	/// Constructor.
	/// </summary>
	/// <param name="action">The action to register.</param>
	public ConfigureOptions(Action<TOptions> action)
	{
	Action = action;
	}
	/// <summary>
	/// The configuration action.
	/// </summary>
	public Action<TOptions> Action { get; }
	/// <summary>
	/// Invokes the registered configure <see cref="Action"/>.
	/// </summary>
	/// <param name="options">The options instance to configure.</param>
	public virtual void Configure(TOptions options)
	{
	if (options == null)
	{
	throw new ArgumentNullException(nameof(options));
	}
	Action?.Invoke(options);
	}
}

IConfigureNamedOptions 继承了 IConfigureNamedOptions 接口,默认实现是 ConfigureNamedOptions ,作用一样,只不过多了一个方法用于应对命名选项模式。它有多个重载泛型重载,也是之前的文章ASP.NET Core - 选型系统之选型配置 中讲到的“使用DI服务配置选项”的具体实现。

点击查看代码 ConfigureNamedOptions ```csharp public class ConfigureNamedOptions : IConfigureNamedOptions where TOptions : class { /// /// Constructor. /// /// The name of the options. /// The action to register. public ConfigureNamedOptions(string name, Action action) { Name = name; Action = action; }
/// <summary>
/// The options name.
/// </summary>
public string Name { get; }
/// <summary>
/// The configuration action.
/// </summary>
public Action<TOptions> Action { get; }
/// <summary>
/// Invokes the registered configure <see cref="Action"/> if the <paramref name="name"/> matches.
/// </summary>
/// <param name="name">The name of the options instance being configured.</param>
/// <param name="options">The options instance to configure.</param>
public virtual void Configure(string name, TOptions options)
{
	if (options == null)
	{
	throw new ArgumentNullException(nameof(options));
	}
	// Null name is used to configure all named options.
	if (Name == null || name == Name)
	{
	Action?.Invoke(options);
	}
}
/// <summary>
/// Invoked to configure a <typeparamref name="TOptions"/> instance with the <see cref="Options.DefaultName"/>.
/// </summary>
/// <param name="options">The options instance to configure.</param>
public void Configure(TOptions options) => Configure(Options.DefaultName, options);

}

</details>
而 NamedConfigureFromConfigurationOptions<TOptions> 类是 IConfigureNamedOptions<TOptions> 的另一个实现,继承了ConfigureNamedOptions<TOptions> 类,重写了一些行为,最终是通过之前讲到的 ConfigurationBuilder的 Bind 方法将配置绑定到选项类而已。
<details>
<summary>点击查看代码 NamedConfigureFromConfigurationOptions<TOptions></summary>
```csharp
public class NamedConfigureFromConfigurationOptions<[DynamicallyAccessedMembers(DynamicallyAccessedMemberTypes.All)] TOptions> : ConfigureNamedOptions<TOptions>
	where TOptions : class
{
	/// <summary>
	/// Constructor that takes the <see cref="IConfiguration"/> instance to bind against.
	/// </summary>
	/// <param name="name">The name of the options instance.</param>
	/// <param name="config">The <see cref="IConfiguration"/> instance.</param>
	[RequiresUnreferencedCode(OptionsBuilderConfigurationExtensions.TrimmingRequiredUnreferencedCodeMessage)]
	public NamedConfigureFromConfigurationOptions(string name, IConfiguration config)
	: this(name, config, _ => { })
	{ }
	/// <summary>
	/// Constructor that takes the <see cref="IConfiguration"/> instance to bind against.
	/// </summary>
	/// <param name="name">The name of the options instance.</param>
	/// <param name="config">The <see cref="IConfiguration"/> instance.</param>
	/// <param name="configureBinder">Used to configure the <see cref="BinderOptions"/>.</param>
	[RequiresUnreferencedCode(OptionsBuilderConfigurationExtensions.TrimmingRequiredUnreferencedCodeMessage)]
	public NamedConfigureFromConfigurationOptions(string name, IConfiguration config, Action<BinderOptions> configureBinder)
	: base(name, options => BindFromOptions(options, config, configureBinder))
	{
	if (config == null)
	{
	throw new ArgumentNullException(nameof(config));
	}
	}
	[UnconditionalSuppressMessage("ReflectionAnalysis", "IL2026:RequiresUnreferencedCode",
	Justification = "The only call to this method is the constructor which is already annotated as RequiresUnreferencedCode.")]
	private static void BindFromOptions(TOptions options, IConfiguration config, Action<BinderOptions> configureBinder) => config.Bind(options, configureBinder);
}

其他的 IPostConfigureOptions 接口也是一样套路,当我们通过相应的方法传入委托对选项类进行配置的时候,会向容器中注入一个单例服务,将配置行为保存起来。

接着往下看 AddOptions 方法,AddOptions 方法有两个重载:

点击查看代码 AddOptions ```csharp public static class OptionsServiceCollectionExtensions { public static IServiceCollection AddOptions(this IServiceCollection services) { if (services == null) { throw new ArgumentNullException(nameof(services)); }
	services.TryAdd(ServiceDescriptor.Singleton(typeof(IOptions<>), typeof(UnnamedOptionsManager<>)));
	services.TryAdd(ServiceDescriptor.Scoped(typeof(IOptionsSnapshot<>), typeof(OptionsManager<>)));
	services.TryAdd(ServiceDescriptor.Singleton(typeof(IOptionsMonitor<>), typeof(OptionsMonitor<>)));
	services.TryAdd(ServiceDescriptor.Transient(typeof(IOptionsFactory<>), typeof(OptionsFactory<>)));
	services.TryAdd(ServiceDescriptor.Singleton(typeof(IOptionsMonitorCache<>), typeof(OptionsCache<>)));
	return services;
}
public static OptionsBuilder<TOptions> AddOptions<TOptions>(this IServiceCollection services, string name)
	where TOptions : class
{
	if (services == null)
	{
	throw new ArgumentNullException(nameof(services));
	}
	services.AddOptions();
	return new OptionsBuilder<TOptions>(services, name);
}

}

</details>
这里可以看出两者的返回值不同,而且第二个方法也调用了第一个方法,第一个方法中主要就是向容器中添加我们常用的IOptions<TOptions>、IOptionsSnapshot<TOptions>、IOptionsMonitor<TOptions> 服务接口,这里也可以看到不同服务接口对于的生命周期。除此之外还有工厂服务IOptionsFactory<>和缓存服务IOptionsMonitorCache<>,这两个就是选项体系的关键。每个选项进行配置的时候都会同时注入这些服务,所以每一个选项我们都能使用三个不同接口去解析。
# OptionsBuilder
上面第二个 AddOptions 方法返回 OptionsBuilder<TOptions> 对象。之前讲过 OptionsBuilder<TOptions> 类中也有 Configure 方法,其实不止 Configure 方法,其他的 PostConfigure 方法等也有,它其实就是最终的选项系统配置类,我们所有的选项配置其实都可以通过调用第二个 AddOptions 方法,再通过 OptionsBuilder<TOptions> 对象中的方法来完成配置。其他各个扩展方法的配置方式不过是进行了使用简化而已。
<details>
<summary>点击查看代码 OptionsBuilder<TOptions></summary>
```csharp
public class OptionsBuilder<TOptions> where TOptions : class
{
	private const string DefaultValidationFailureMessage = "A validation error has occurred.";
	
	public string Name { get; }
	
	public IServiceCollection Services { get; }
	
	public OptionsBuilder(IServiceCollection services, string name)
	{
	Services = services;
	Name = name ?? Options.DefaultName;
	}
	
	public virtual OptionsBuilder<TOptions> Configure(Action<TOptions> configureOptions)
	{
	Services.AddSingleton<IConfigureOptions<TOptions>>(new ConfigureNamedOptions<TOptions>(Name, configureOptions));
	return this;
	}
	
	public virtual OptionsBuilder<TOptions> PostConfigure(Action<TOptions> configureOptions)
	{
	Services.AddSingleton<IPostConfigureOptions<TOptions>>(new PostConfigureOptions<TOptions>(Name, configureOptions));
	return this;
	}
	
	public virtual OptionsBuilder<TOptions> Validate(Func<TOptions, bool> validation)
	=> Validate(validation: validation, failureMessage: DefaultValidationFailureMessage);
	
	public virtual OptionsBuilder<TOptions> Validate(Func<TOptions, bool> validation, string failureMessage)
	{
	Services.AddSingleton<IValidateOptions<TOptions>>(new ValidateOptions<TOptions>(Name, validation, failureMessage));
	return this;
	}
}

IValidateOptions

我们除了可以对选项进行配置绑定之外,还可以对选项进行验证。验证规则是通过上面的第二个 AddOptions 方法返回的 OptionsBuilder 方法进行添加的。

验证规则配置有三种方式,最后其实都是通过 IValidateOptions 的实现类来完成。我们自己实现的自定义验证类就不用说了,最后我们会将其注入到容器中,而从上面的代码中可以看到,当我们通过委托的方式自定义验证规则的时候,它会被构建成一个 ValidateOptions 类对象,并注入到容器中作为一个服务。

ValidateOptions 是 IValidateOptions 的一个实现类,构造函数中接收委托,通过委托返回的 bool 结构判断验证是否通过。

点击查看代码 ValidateOptions
public class ValidateOptions<TOptions> : IValidateOptions<TOptions> where TOptions : class
{
	/// <summary>
	/// Constructor.
	/// </summary>
	/// <param name="name">Options name.</param>
	/// <param name="validation">Validation function.</param>
	/// <param name="failureMessage">Validation failure message.</param>
	public ValidateOptions(string name, Func<TOptions, bool> validation, string failureMessage)
	{
	Name = name;
	Validation = validation;
	FailureMessage = failureMessage;
	}
	/// <summary>
	/// The options name.
	/// </summary>
	public string Name { get; }
	/// <summary>
	/// The validation function.
	/// </summary>
	public Func<TOptions, bool> Validation { get; }
	/// <summary>
	/// The error to return when validation fails.
	/// </summary>
	public string FailureMessage { get; }
	/// <summary>
	/// Validates a specific named options instance (or all when <paramref name="name"/> is null).
	/// </summary>
	/// <param name="name">The name of the options instance being validated.</param>
	/// <param name="options">The options instance.</param>
	/// <returns>The <see cref="ValidateOptionsResult"/> result.</returns>
	public ValidateOptionsResult Validate(string name, TOptions options)
	{
	// null name is used to configure all named options
	if (Name == null || name == Name)
	{
	if ((Validation?.Invoke(options)).Value)
	{
	return ValidateOptionsResult.Success;
	}
	return ValidateOptionsResult.Fail(FailureMessage);
	}
	// ignored if not validating this instance
	return ValidateOptionsResult.Skip;
	}
}

我们可以通过重载方法传入相应的验证失败提醒文本。

Options、UnnamedOptionsManager

接下来看选项使用相关的内容,其中 IOptions 中的选项类一经创建一直保持不变,默认实现类 UnnamedOptionsManager

点击查看代码 UnnamedOptionsManager
internal sealed class UnnamedOptionsManager<[DynamicallyAccessedMembers(Options.DynamicallyAccessedMembers)] TOptions> :
	IOptions<TOptions>
	where TOptions : class
{
	private readonly IOptionsFactory<TOptions> _factory;
	private volatile object _syncObj;
	private volatile TOptions _value;
	public UnnamedOptionsManager(IOptionsFactory<TOptions> factory) => _factory = factory;
	public TOptions Value
	{
	get
	{
	if (_value is TOptions value)
	{
	return value;
	}
	lock (_syncObj ?? Interlocked.CompareExchange(ref _syncObj, new object(), null) ?? _syncObj)
	{
	return _value ??= _factory.Create(Options.DefaultName);
	}
	}
	}
}

IOptions 接口只有一个 Value 属性,实现类中通过锁确保创建的 Value 值不会因为线程问题导致不同,且该服务被注册为单例生命周期,所以对象不销毁,后续一直会读取内存中的 Value 值。具体选项类对象的创建由工厂服务负责。

IOptionsSnapshot、OptionsManager

IOptionsSnapshot 的实现类是 OptionsManager,该类中有一个私有的 OptionsCache 属性,每次对选项类进行读取的时候,都是先尝试从缓存读取,如果没有才创建。而由于 IOptionsSnapshot 被注册为请求域生命周期,所以单次请求内相应对象不会销毁,缓存不会清空,会一直保持一个。

点击查看代码 OptionsManager
public class OptionsManager<[DynamicallyAccessedMembers(Options.DynamicallyAccessedMembers)] TOptions> :
	IOptions<TOptions>,
	IOptionsSnapshot<TOptions>
	where TOptions : class
{
	private readonly IOptionsFactory<TOptions> _factory;
	private readonly OptionsCache<TOptions> _cache = new OptionsCache<TOptions>(); // Note: this is a private cache
	/// <summary>
	/// Initializes a new instance with the specified options configurations.
	/// </summary>
	/// <param name="factory">The factory to use to create options.</param>
	public OptionsManager(IOptionsFactory<TOptions> factory)
	{
	_factory = factory;
	}
	/// <summary>
	/// The default configured <typeparamref name="TOptions"/> instance, equivalent to Get(Options.DefaultName).
	/// </summary>
	public TOptions Value => Get(Options.DefaultName);
	/// <summary>
	/// Returns a configured <typeparamref name="TOptions"/> instance with the given <paramref name="name"/>.
	/// </summary>
	public virtual TOptions Get(string name)
	{
	name = name ?? Options.DefaultName;
	if (!_cache.TryGetValue(name, out TOptions options))
	{
	// Store the options in our instance cache. Avoid closure on fast path by storing state into scoped locals.
	IOptionsFactory<TOptions> localFactory = _factory;
	string localName = name;
	options = _cache.GetOrAdd(name, () => localFactory.Create(localName));
	}
	return options;
	}
}

IOptionsMonitor、OptionsMonitor

IOptionsMonitor 每次获取选项类都是最新的值,它实现类是 OptionsMonitor,实现类中使用了从容器中注入的单例缓存 IOptionsMonitorCache 来保存选项类,并且通过相应的 IOptionsChangeTokenSource 注册了选项类绑定内容的监听,例如上面讲到的 ConfigurationChangeTokenSource,在选项类配置内容改变的时候会触发事件,而在事件中会将缓存先情况并重新获取创建类,并且执行注册进来的额外的监听事件,可以看看下面的 InvokeChanged 方法。

点击查看代码 OptionsMonitor
public class OptionsMonitor<[DynamicallyAccessedMembers(Options.DynamicallyAccessedMembers)] TOptions> :
	IOptionsMonitor<TOptions>,
	IDisposable
	where TOptions : class
{
	private readonly IOptionsMonitorCache<TOptions> _cache;
	private readonly IOptionsFactory<TOptions> _factory;
	private readonly List<IDisposable> _registrations = new List<IDisposable>();
	internal event Action<TOptions, string> _onChange;
	/// <summary>
	/// Constructor.
	/// </summary>
	/// <param name="factory">The factory to use to create options.</param>
	/// <param name="sources">The sources used to listen for changes to the options instance.</param>
	/// <param name="cache">The cache used to store options.</param>
	public OptionsMonitor(IOptionsFactory<TOptions> factory, IEnumerable<IOptionsChangeTokenSource<TOptions>> sources, IOptionsMonitorCache<TOptions> cache)
	{
	_factory = factory;
	_cache = cache;
	void RegisterSource(IOptionsChangeTokenSource<TOptions> source)
	{
	IDisposable registration = ChangeToken.OnChange(
	 () => source.GetChangeToken(),
	 (name) => InvokeChanged(name),
	 source.Name);
	_registrations.Add(registration);
	}
	// The default DI container uses arrays under the covers. Take advantage of this knowledge
	// by checking for an array and enumerate over that, so we don't need to allocate an enumerator.
	if (sources is IOptionsChangeTokenSource<TOptions>[] sourcesArray)
	{
	foreach (IOptionsChangeTokenSource<TOptions> source in sourcesArray)
	{
	RegisterSource(source);
	}
	}
	else
	{
	foreach (IOptionsChangeTokenSource<TOptions> source in sources)
	{
	RegisterSource(source);
	}
	}
	}
	private void InvokeChanged(string name)
	{
	name = name ?? Options.DefaultName;
	_cache.TryRemove(name);
	TOptions options = Get(name);
	if (_onChange != null)
	{
	_onChange.Invoke(options, name);
	}
	}
	/// <summary>
	/// The present value of the options.
	/// </summary>
	public TOptions CurrentValue
	{
	get => Get(Options.DefaultName);
	}
	/// <summary>
	/// Returns a configured <typeparamref name="TOptions"/> instance with the given <paramref name="name"/>.
	/// </summary>
	public virtual TOptions Get(string name)
	{
	name = name ?? Options.DefaultName;
	return _cache.GetOrAdd(name, () => _factory.Create(name));
	}
	/// <summary>
	/// Registers a listener to be called whenever <typeparamref name="TOptions"/> changes.
	/// </summary>
	/// <param name="listener">The action to be invoked when <typeparamref name="TOptions"/> has changed.</param>
	/// <returns>An <see cref="IDisposable"/> which should be disposed to stop listening for changes.</returns>
	public IDisposable OnChange(Action<TOptions, string> listener)
	{
	var disposable = new ChangeTrackerDisposable(this, listener);
	_onChange += disposable.OnChange;
	return disposable;
	}
	/// <summary>
	/// Removes all change registration subscriptions.
	/// </summary>
	public void Dispose()
	{
	// Remove all subscriptions to the change tokens
	foreach (IDisposable registration in _registrations)
	{
	registration.Dispose();
	}
	_registrations.Clear();
	}
	internal sealed class ChangeTrackerDisposable : IDisposable
	{
	private readonly Action<TOptions, string> _listener;
	private readonly OptionsMonitor<TOptions> _monitor;
	public ChangeTrackerDisposable(OptionsMonitor<TOptions> monitor, Action<TOptions, string> listener)
	{
	_listener = listener;
	_monitor = monitor;
	}
	public void OnChange(TOptions options, string name) => _listener.Invoke(options, name);
	public void Dispose() => _monitor._onChange -= OnChange;
	}
}

OnChange 方法中传入的委托本来可以可以直接追加到事件中的,这里将其再包装多一层,是为了 OptionsMonitor 对象销毁的时候能够将相应的事件释放,如果不包装多一层的话,委托只在方法作用域中,对象释放的时候是获取不到的。

IOptionsMonitorCache、OptionsCache

OptionsCache 是 IOptionsMonitorCache 接口的的实现类,从上面可以看到 OptionsMonitor 和 OptionsSnapshot 都使用到了这个,OptionsSnapshot 通过内部创建的私有的缓存属性实现了请求域内选项类不变,而 OptionsMonitor 则通过它减少了每次都直接读取配置来源(如文件、数据库、配置中心api)的性能消耗,而是通过变更事件的方式进行更新。其实我们还可以在需要的时候注入IOptionsMonitorCache 服务自行对选项类进行更新。

OptionsCache 的具体实现比较简单,主要就是通过 ConcurrentDictionary<string, Lazy> 对象作为内存缓存,其中为了性能还再使用了 Lazy 方式。

IOptionsFactory、OptionsFactory

OptionsFactory 类实现 IOptionsFactory 接口,是选项类的实际创建配置之处,其实就是将之前注册到容器中与当前相关的各种配置、验证的行为配置类注入进来,再通过放射创建对象之后,将选项类对象传进去,逐一对相应的行为进行调用,最后得到一个成型的选项类。这里选项类的创建方式很简单,这也是要求选项类要有无参构造函数的原因。

点击查看代码 OptionsFactory
public class OptionsFactory<[DynamicallyAccessedMembers(Options.DynamicallyAccessedMembers)] TOptions> :
	IOptionsFactory<TOptions>
	where TOptions : class
{
	private readonly IConfigureOptions<TOptions>[] _setups;
	private readonly IPostConfigureOptions<TOptions>[] _postConfigures;
	private readonly IValidateOptions<TOptions>[] _validations;
	/// <summary>
	/// Initializes a new instance with the specified options configurations.
	/// </summary>
	/// <param name="setups">The configuration actions to run.</param>
	/// <param name="postConfigures">The initialization actions to run.</param>
	public OptionsFactory(IEnumerable<IConfigureOptions<TOptions>> setups, IEnumerable<IPostConfigureOptions<TOptions>> postConfigures) : this(setups, postConfigures, validations: Array.Empty<IValidateOptions<TOptions>>())
	{ }
	/// <summary>
	/// Initializes a new instance with the specified options configurations.
	/// </summary>
	/// <param name="setups">The configuration actions to run.</param>
	/// <param name="postConfigures">The initialization actions to run.</param>
	/// <param name="validations">The validations to run.</param>
	public OptionsFactory(IEnumerable<IConfigureOptions<TOptions>> setups, IEnumerable<IPostConfigureOptions<TOptions>> postConfigures, IEnumerable<IValidateOptions<TOptions>> validations)
	{
	// The default DI container uses arrays under the covers. Take advantage of this knowledge
	// by checking for an array and enumerate over that, so we don't need to allocate an enumerator.
	// When it isn't already an array, convert it to one, but don't use System.Linq to avoid pulling Linq in to
	// small trimmed applications.
	_setups = setups as IConfigureOptions<TOptions>[] ?? new List<IConfigureOptions<TOptions>>(setups).ToArray();
	_postConfigures = postConfigures as IPostConfigureOptions<TOptions>[] ?? new List<IPostConfigureOptions<TOptions>>(postConfigures).ToArray();
	_validations = validations as IValidateOptions<TOptions>[] ?? new List<IValidateOptions<TOptions>>(validations).ToArray();
	}
	/// <summary>
	/// Returns a configured <typeparamref name="TOptions"/> instance with the given <paramref name="name"/>.
	/// </summary>
	public TOptions Create(string name)
	{
	TOptions options = CreateInstance(name);
	foreach (IConfigureOptions<TOptions> setup in _setups)
	{
	if (setup is IConfigureNamedOptions<TOptions> namedSetup)
	{
	namedSetup.Configure(name, options);
	}
	else if (name == Options.DefaultName)
	{
	setup.Configure(options);
	}
	}
	foreach (IPostConfigureOptions<TOptions> post in _postConfigures)
	{
	post.PostConfigure(name, options);
	}
	if (_validations != null)
	{
	var failures = new List<string>();
	foreach (IValidateOptions<TOptions> validate in _validations)
	{
	ValidateOptionsResult result = validate.Validate(name, options);
	if (result is not null && result.Failed)
	{
	failures.AddRange(result.Failures);
	}
	}
	if (failures.Count > 0)
	{
	throw new OptionsValidationException(name, typeof(TOptions), failures);
	}
	}
	return options;
	}
	/// <summary>
	/// Creates a new instance of options type
	/// </summary>
	protected virtual TOptions CreateInstance(string name)
	{
	return Activator.CreateInstance<TOptions>();
	}
}

以上就是 .NET Core 下的选项系统,由于选项系统的源码不多,这里也就将大部分类都拿出来讲了一下,相当于把这个框架的流程思路都讲了一遍,不知不觉写得字数又很多了,希望有童鞋能够耐心地看到这里。



参考文章:
ASP.NET Core 中的选项模式 | Microsoft Learn
选项模式 - .NET | Microsoft Learn
面向 .NET 库创建者的选项模式指南 - .NET | Microsoft Learn
理解ASP.NET Core - 选项(Options)



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目录:ASP.NET Core 系列总结
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作者:啊晚原文地址:https://www.cnblogs.com/wewant/p/17111746.html

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