Net8 自带OpenFeign实现远程接口调用
【c#版本Openfeign】Net8 自带OpenFeign实现远程接口调用
引言
相信巨硬,我们便一直硬。Net版本到现在已经出了7了,8也已经在预览版了,相信在一个半月就会正式发布,其中也有很多拭目以待的新功能了,不仅仅有Apm和Tap的结合,TaskToAscynResult,以及UnsafeAccessor用来获取私有变量,性能比反射,EMIT更高,还有针对AsyncLocal封装的IAsyncContext,IAsyncState,用来存异步上下文的一些数据,当然了,最让我期待的还是自带了一个OpenFeign,在看新增的东西的时候,其他的都觉得一般般,个人觉得哈,当看到这个AutoClient新增的包的时候,好奇心的驱使下,我点进去看了一下,哇,官网终于出这玩意了,使用简单,根据特性,然后使用Sg来生成我们对应的实现从而我们只需要定义一个接口,打上特性,就可以生成一个对应的代理类,调用远程Api接口,太令人心动,为此特地升级了VS,下载了Net8,体验新功能,接下来,我们就看看他的使用案例。附官网链接:https://learn.microsoft.com/zh-cn/dotnet/api/microsoft.extensions.http.autoclient.autoclientattribute?view=dotnet-plat-ext-8.0
AutoClient
在使用自带的OpenFeign的时候,我们还需要下载一个扩展包 Microsoft.Extensions.Http.AutoClient,当然还有 Microsoft.Extensions.Http的扩展包了,接下来我们定义一个接口,IBussiness,打上AutoClient特性,第一个参数是我们在注入Httpclient的时候,给的名字,我这里叫TestApi,这里会根据使用了AutoClient特性自定生成一个BussIness的类,在下图可以看到,自动生成了一个AutoClient.g.cs文件,里面的类就是Bussiness,其中包括了我们的TestPost方法以及路由信息,在上面的代码中,我们使用了Post特性,代表我们这个是Post请求,以及方法参数限制必须有一个CancellationToken,这个Post里面的内容,就是我另外一个项目种的接口地址。
builder.Services.AddHttpClient("TestApi",s=>s.BaseAddress=new Uri(" http://localhost:5062")); [AutoClient( Task<>
// <auto-generated/>#nullable enable#pragma warning disable CS1591 // Compensate for https://github.com/dotnet/roslyn/issues/54103namespace WebApplication1.Api { [global::System.CodeDom.Compiler.GeneratedCodeAttribute("Microsoft.Gen.AutoClient", "8.0.0.0")] public class Bussiness : IBussiness { private static class Statics { public static readonly global::System.Net.Http.Headers.MediaTypeHeaderValue ApplicationJsonHeader = new("application/json") { CharSet = global::System.Text.Encoding.UTF8.WebName }; public static readonly global::System.Net.Http.Headers.MediaTypeHeaderValue TextPlainHeader = new("text/plain") { CharSet = global::System.Text.Encoding.UTF8.WebName }; public static readonly global::System.Uri UriTestPost = new("/Test/TestPost", global::System.UriKind.Relative); public static readonly global::Microsoft.Extensions.Http.Telemetry.RequestMetadata RequestMetadataTestPost = new() { DependencyName = "Bussiness", RequestName = "TestPost", RequestRoute = "/Test/TestPost" }; } private readonly global::System.Net.Http.HttpClient _httpClient; private readonly global::Microsoft.Extensions.Http.AutoClient.AutoClientOptions _autoClientOptions; public Bussiness(global::System.Net.Http.HttpClient httpClient, global::Microsoft.Extensions.Http.AutoClient.AutoClientOptions autoClientOptions) { _httpClient = httpClient; _autoClientOptions = autoClientOptions; } public async global::System.Threading.Tasks.Task<string> TestPost(global::System.Threading.CancellationToken cancellationToken) { var httpRequestMessage = new global::System.Net.Http.HttpRequestMessage() { Method = global::System.Net.Http.HttpMethod.Post, RequestUri = Statics.UriTestPost, }; try { global::Microsoft.Extensions.Telemetry.TelemetryExtensions.SetRequestMetadata(httpRequestMessage, Statics.RequestMetadataTestPost); return await SendRequest<string>("Bussiness", Statics.RequestMetadataTestPost.RequestRoute, httpRequestMessage, cancellationToken) .ConfigureAwait(false); } finally { httpRequestMessage.Dispose(); } } private async global::System.Threading.Tasks.Task<TResponse> SendRequest<TResponse>( string dependencyName, string path, global::System.Net.Http.HttpRequestMessage httpRequestMessage, global::System.Threading.CancellationToken cancellationToken) where TResponse : class { var response = await _httpClient.SendAsync(httpRequestMessage, cancellationToken).ConfigureAwait(false); if (typeof(TResponse) == typeof(global::System.Net.Http.HttpResponseMessage)) { return (response as TResponse)!; } try { if (!response.IsSuccessStatusCode) { var error = await global::Microsoft.Extensions.Http.AutoClient.AutoClientHttpError.CreateAsync(response, cancellationToken).ConfigureAwait(false); throw new global::Microsoft.Extensions.Http.AutoClient.AutoClientException(global::System.FormattableString.Invariant($"The '{dependencyName}' HTTP client failed with '{response.StatusCode}' status code."), path, error); } if (typeof(TResponse) == typeof(string)) {#if NET5_0_OR_GREATER var rawContent = await response.Content.ReadAsStringAsync(cancellationToken).ConfigureAwait(false);#else cancellationToken.ThrowIfCancellationRequested(); var rawContent = await response.Content.ReadAsStringAsync().ConfigureAwait(false);#endif return (rawContent as TResponse)!; } var mediaType = response.Content.Headers.ContentType?.MediaType; if (mediaType == "application/json") { var deserializedResponse = await global::System.Net.Http.Json.HttpContentJsonExtensions.ReadFromJsonAsync<TResponse>(response.Content, _autoClientOptions.JsonSerializerOptions, cancellationToken) .ConfigureAwait(false); if (deserializedResponse == null) { var error = await global::Microsoft.Extensions.Http.AutoClient.AutoClientHttpError.CreateAsync(response, cancellationToken).ConfigureAwait(false); throw new global::Microsoft.Extensions.Http.AutoClient.AutoClientException(global::System.FormattableString.Invariant($"The '{dependencyName}' REST API failed to deserialize response."), path, error); } return deserializedResponse; } var err = await global::Microsoft.Extensions.Http.AutoClient.AutoClientHttpError.CreateAsync(response, cancellationToken).ConfigureAwait(false); throw new global::Microsoft.Extensions.Http.AutoClient.AutoClientException(global::System.FormattableString.Invariant($"The '{dependencyName}' REST API returned an unsupported content type ('{mediaType}')."), path, err); } finally { response.Dispose(); } } } [global::System.CodeDom.Compiler.GeneratedCodeAttribute("Microsoft.Gen.AutoClient", "8.0.0.0")] public static class AutoClientsExtensions { public static global::Microsoft.Extensions.DependencyInjection.IServiceCollection AddBussiness(this global::Microsoft.Extensions.DependencyInjection.IServiceCollection services) { return services.AddBussiness(_ => { }); } public static global::Microsoft.Extensions.DependencyInjection.IServiceCollection AddBussiness( this global::Microsoft.Extensions.DependencyInjection.IServiceCollection services, global::System.Action<global::Microsoft.Extensions.Http.AutoClient.AutoClientOptions> configureOptions) { global::Microsoft.Extensions.DependencyInjection.OptionsServiceCollectionExtensions.AddOptionsWithValidateOnStart<global::Microsoft.Extensions.Http.AutoClient.AutoClientOptions, global::Microsoft.Extensions.Http.AutoClient.AutoClientOptionsValidator>(services, "Bussiness").Configure(configureOptions); global::Microsoft.Extensions.DependencyInjection.Extensions.ServiceCollectionDescriptorExtensions.TryAddSingleton<IBussiness>(services, provider => { var httpClient = global::Microsoft.Extensions.DependencyInjection.ServiceProviderServiceExtensions.GetRequiredService<global::System.Net.Http.IHttpClientFactory>(provider).CreateClient("TestApi"); var autoClientOptions = global::Microsoft.Extensions.DependencyInjection.ServiceProviderServiceExtensions.GetRequiredService<global::Microsoft.Extensions.Options.IOptionsMonitor<global::Microsoft.Extensions.Http.AutoClient.AutoClientOptions>>(provider).Get("Bussiness"); return new Bussiness(httpClient, autoClientOptions); }); return services; } } }
下面这段代码,是我另一个项目接口的代码,可以看到,路由是Test,方法的路由是TestPost,返回了一个字符串true,因为,在使用AutoClient的时候,返回类型必须是引用类型,接下来,我们调用一下测试看看,在返回的结果中,我们可以看到返回了我们在另一个项目中返回的结果,true,同时,AutoClient还支持Get,Patch,Delete,Get,Put,Body(标记是在Body中),Header,Query等诸多特性,就是一个c#版本的OpenFeign,简直爽的不要不要的。
[Route("Test")]public class TestController : ControllerBase { public TestController() { } [HttpPost("TestPost")] public Task<string> TestPost() { return Task.FromResult("true"); } }
Net8 自带OpenFeign实现远程接口调用
本文2024-09-16 17:45:05发表“云星空知识”栏目。
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