前言
在开发 Asp.Net Core 应用程序的过程中,我们常常需要对业务代码编写单元测试,这种方法既快速又有效,利用单元测试做代码覆盖测试,也是非常必要的事情;但是,但我们需要对系统进行集成测试的时候,需要启动服务主机,利用浏览器或者Postman 等网络工具对接口进行集成测试,这就非常的不方便,同时浪费了大量的时间在重复启动应用程序上;今天要介绍就是如何在不启动应用程序的情况下,对 Asp.Net Core WebApi 项目进行网络集成测试。
1.1 建立项目
1.1 首先我们建立两个项目,Asp.Net Core WebApi 和 xUnit 单元测试项目,如下
1.2 上图的单元测试项目 Ron.XUnitTest 必须应用待测试的 WebApi 项目 Ron.TestDemo
1.3 接下来打开 Ron.XUnitTest 项目文件 .csproj,添加包引用
Microsoft.AspNetCore.App
Microsoft.AspNetCore.TestHost1.4 为什么要引用这两个包呢,因为我刚才创建的 WebApi 项目是引用 Microsoft.AspNetCore.App 的,至于 Microsoft.AspNetCore.TestHost,它是今天的主角,为了使用测试主机,必须对其进行引用,下面会详细说明
2. 编写业务
2.1 创建一个接口,代码如下
[Route("api/[controller]")]
[ApiController]
public class ValuesController : ControllerBase
{
private IConfiguration configuration;
public ValuesController(IConfiguration configuration)
{
this.configuration = configuration;
}
[HttpGet("{id}")]
public ActionResult<int> Get(int id)
{
var result= id + this.configuration.GetValue<int>("max");
return result;
}
}2.1 接口代码非常简单,接受一个参数 id,然后和配置文件中获取的值 max 相加,然后输出结果给客户端
3. 编写测试用例
3.1 为了能够使用主机集成测试,我们需要使用类
Microsoft.AspNetCore.TestHost.TestServer3.2 我们来看一下 TestServer 的源码,代码较长,你可以直接跳过此段,进入下一节 3.3
public class TestServer : IServer
{
private IWebHost _hostInstance;
private bool _disposed = false;
private IHttpApplication<Context> _application;
public TestServer(): this(new FeatureCollection())
{
}
public TestServer(IFeatureCollection featureCollection)
{
Features = featureCollection ?? throw new ArgumentNullException(nameof(featureCollection));
}
public TestServer(IWebHostBuilder builder): this(builder, new FeatureCollection())
{
}
public TestServer(IWebHostBuilder builder, IFeatureCollection featureCollection): this(featureCollection)
{
if (builder == null)
{
throw new ArgumentNullException(nameof(builder));
}
var host = builder.UseServer(this).Build();
host.StartAsync().GetAwaiter().GetResult();
_hostInstance = host;
}
public Uri BaseAddress { get; set; } = new Uri("http://localhost/");
public IWebHost Host
{
get
{
return _hostInstance
?? throw new InvalidOperationException("The TestServer constructor was not called with a IWebHostBuilder so IWebHost is not available.");
}
}
public IFeatureCollection Features { get; }
private IHttpApplication<Context> Application
{
get => _application ?? throw new InvalidOperationException("The server has not been started or no web application was configured.");
}
public HttpMessageHandler CreateHandler()
{
var pathBase = BaseAddress == null ? PathString.Empty : PathString.FromUriComponent(BaseAddress);
return new ClientHandler(pathBase, Application);
}
public HttpClient CreateClient()
{
return new HttpClient(CreateHandler()) { BaseAddress = BaseAddress };
}
public WebSocketClient CreateWebSocketClient()
{
var pathBase = BaseAddress == null ? PathString.Empty : PathString.FromUriComponent(BaseAddress);
return new WebSocketClient(pathBase, Application);
}
public RequestBuilder CreateRequest(string path)
{
return new RequestBuilder(this, path);
}
public async Task<HttpContext> SendAsync(Action<HttpContext> configureContext, CancellationToken cancellationToken = default)
{
if (configureContext == null)
{
throw new ArgumentNullException(nameof(configureContext));
}
var builder = new HttpContextBuilder(Application);
builder.Configure(context =>
{
var request = context.Request;
request.Scheme = BaseAddress.Scheme;
request.Host = HostString.FromUriComponent(BaseAddress);
if (BaseAddress.IsDefaultPort)
{
request.Host = new HostString(request.Host.Host);
}
var pathBase = PathString.FromUriComponent(BaseAddress);
if (pathBase.HasValue && pathBase.Value.EndsWith("/"))
{
pathBase = new PathString(pathBase.Value.Substring(0, pathBase.Value.Length - 1));
}
request.PathBase = pathBase;
});
builder.Configure(configureContext);
return await builder.SendAsync(cancellationToken).ConfigureAwait(false);
}
public void Dispose()
{
if (!_disposed)
{
_disposed = true;
_hostInstance.Dispose();
}
}
Task IServer.StartAsync<TContext>(IHttpApplication<TContext> application, CancellationToken cancellationToken)
{
_application = new ApplicationWrapper<Context>((IHttpApplication<Context>)application, () =>
{
if (_disposed)
{
throw new ObjectDisposedException(GetType().FullName);
}
});
return Task.CompletedTask;
}
Task IServer.StopAsync(CancellationToken cancellationToken)
{
return Task.CompletedTask;
}
private class ApplicationWrapper<TContext> : IHttpApplication<TContext>
{
private readonly IHttpApplication<TContext> _application;
private readonly Action _preProcessRequestAsync;
public ApplicationWrapper(IHttpApplication<TContext> application, Action preProcessRequestAsync)
{
_application = application;
_preProcessRequestAsync = preProcessRequestAsync;
}
public TContext CreateContext(IFeatureCollection contextFeatures)
{
return _application.CreateContext(contextFeatures);
}
public void DisposeContext(TContext context, Exception exception)
{
_application.DisposeContext(context, exception);
}
public Task ProcessRequestAsync(TContext context)
{
_preProcessRequestAsync();
return _application.ProcessRequestAsync(context);
}
}
}3.3 TestServer 类代码量比较大,不过不要紧,我们只需要关注它的构造方法就可以了
public TestServer(IWebHostBuilder builder)
: this(builder, new FeatureCollection())
{
}3.4 其构造方法接受一个 IWebHostBuilder 对象,只要我们传入一个 WebHostBuilder 就可以创建一个测试主机了
3.5 创建测试主机和 HttpClient 客户端,我们在测试类 ValuesUnitTest 编写如下代码
public class ValuesUnitTest
{
private TestServer testServer;
private HttpClient httpCLient;
public ValuesUnitTest()
{
testServer = new TestServer(new WebHostBuilder().UseStartup<Ron.TestDemo.Startup>());
httpCLient = testServer.CreateClient();
}
[Fact]
public async void GetTest()
{
var data = await httpCLient.GetAsync("/api/values/100");
var result = await data.Content.ReadAsStringAsync();
Assert.Equal("300", result);
}
}3.7 接下来就是创建了一个单元测试的方法,直接使用刚才初始化的 HttpClient 对象进行网络请求,这个时候,我们只需要知道 Action 即可,同时传递参数 100,最后断言服务器输出值为:"300",回顾一下我们创建的待测试方法,其业务正是将客户端传入的 id 值和配置文件 max 值相加后输出,而 max 值在这里被配置为 200
3.8 运行单元测试
3.9 测试通过,可以看到,测试达到了预期的结果,服务器正确返回了计算后的值
4. 配置文件注意事项
4.1 在待测试项目中的配置文件 appsettings.json 并不会被测试主机所读取,因为我们在上面创建测试主机的时候没有调用方法
WebHost.CreateDefaultBuilder4.2 我们只是创建了一个 WebHostBuilder 对象,非常轻量的主机配置,简单来说就是无配置,如果对于 WebHost.CreateDefaultBuilder 不理解的同学,建议阅读我的文章 asp.netcore 深入了解配置文件加载过程.
4.3 所以,为了能够在单元测试中使用项目配置文件,我在 Ron.TestDemo 项目中的 Startup 类加入了下面的代码
public class Startup
{
public Startup(IConfiguration configuration, IHostingEnvironment env)
{
this.Configuration = new ConfigurationBuilder()
.AddJsonFile("appsettings.json")
.AddEnvironmentVariables()
.SetBasePath(env.ContentRootPath)
.Build();
}
public IConfiguration Configuration { get; }
// This method gets called by the runtime. Use this method to add services to the container.
public void ConfigureServices(IServiceCollection services)
{
services.AddSingleton<IConfiguration>(this.Configuration);
services.AddMvc().SetCompatibilityVersion(CompatibilityVersion.Version_2_2);
}
}4.4 其目的就是手动读取配置文件,重新初始化 IConfiguration 对象,并将 this.Configuration 对象加入依赖注入容器中
结语
- 本文从单元测试入手,针对常见的系统集成测试提供了另外一种便捷的测试方案,通过创建 TestServer 测试主机开始,利用主机创建 HttpCLient 对象进行网络集成测试
- 减少重复启动程序和测试工具,提高了测试效率
- 充分利用了 Visual Studio 的优势,既可以做单元测试,还能利用这种测试方案进行快速代码调试
- 最后,还了解如何通过 TestServer 主机加载待测试项目的配置文件对象 IConfiguration