using NSubstitute; using RackPeek.Domain.Resources.Hardware; using RackPeek.Domain.Resources.Hardware.Servers.Gpus; using RackPeek.Domain.Resources.Models; namespace Tests.HardwareResources; public class UpdateGpuUseCaseTests { [Fact] public async Task ExecuteAsync_Updates_gpu_when_index_is_valid() { // Arrange var repo = Substitute.For(); var server = new Server { Name = "node01", Gpus = new List { new() { Model = "RTX 4090", Vram = 24 } } }; repo.GetByNameAsync("node01").Returns(server); var sut = new UpdateGpuUseCase(repo); // Act await sut.ExecuteAsync( "node01", 0, "RTX 3080", 10 ); // Assert Assert.Equal("RTX 3080", server.Gpus[0].Model); Assert.Equal(10, server.Gpus[0].Vram); await repo.Received(1).UpdateAsync(Arg.Is(s => s.Name == "node01" && s.Gpus.Count == 1 && s.Gpus[0].Model == "RTX 3080" && s.Gpus[0].Vram == 10 )); } [Fact] public async Task ExecuteAsync_Throws_if_index_out_of_range() { // Arrange var repo = Substitute.For(); var server = new Server { Name = "node01", Gpus = new List { new() { Model = "RTX 4090", Vram = 24 } } }; repo.GetByNameAsync("node01").Returns(server); var sut = new UpdateGpuUseCase(repo); // Act & Assert await Assert.ThrowsAsync(async () => await sut.ExecuteAsync( "node01", 1, "RTX 3080", 10 ) ); await repo.DidNotReceive().UpdateAsync(Arg.Any()); } [Fact] public async Task ExecuteAsync_Does_nothing_when_server_does_not_exist() { // Arrange var repo = Substitute.For(); repo.GetByNameAsync("node01") .Returns((Hardware?)null); var sut = new UpdateGpuUseCase(repo); // Act await sut.ExecuteAsync( "node01", 0, "RTX 3080", 10 ); // Assert await repo.DidNotReceive().UpdateAsync(Arg.Any()); } }