Files
mic-check/tests/api/MicCheck.Api.Tests.Integration/Environments/EnvironmentDocumentTests.cs
James Wampler 8fc0ebb724 Add integration + Playwright smoke suite for post-deploy QA validation
Existing coverage was one integration test and zero e2e tests. Adds the thin,
high-value integration/e2e layer unit tests can't reach (real Postgres wire
contract, real browser flows) and wires it as a post-deploy smoke gate.

- Seed a deterministic dev/QA admin user and fixed Development env key so
  HTTP-only tests can authenticate without per-run registration.
- Expand the API integration suite: disabled-flag, unauthorized access,
  environment-document bootstrap, identity-override precedence, and auth
  login scenarios, reusing the existing black-box HTTP+Npgsql harness.
- Add a Playwright suite for the admin SPA: login, nav, project/environment
  context selection, and feature create/toggle, against the real API.
- Bind QA Postgres to 127.0.0.1 for direct seeding, add smoke-qa.sh and an
  ensure_node() bootstrap (the qa runner has no Node today), and wire a new
  smoke-qa CI job after deploy-qa.
2026-07-04 17:57:50 -07:00

87 lines
3.2 KiB
C#

using System.Text.Json;
using MicCheck.Api.Tests.Integration.Common;
using MicCheck.Api.Tests.Integration.Flags;
using NUnit.Framework;
namespace MicCheck.Api.Tests.Integration.Environments;
[TestFixture]
public class EnvironmentDocumentTests
{
private IntegrationTestSettings settings = null!;
private TestDatabase db = null!;
private FlagApiHttpClient client = null!;
private FlagSeed? seed;
[OneTimeSetUp]
public void OneTimeSetUp()
{
settings = IntegrationTestSettings.Load();
db = new TestDatabase(settings.DbConnectionString);
client = new FlagApiHttpClient(settings);
}
[OneTimeTearDown]
public void OneTimeTearDown() => client.Dispose();
[SetUp]
public async Task SetUp()
=> seed = await FlagSeed.InsertEnabledFlagAsync(db, testRunTag: "EnvDocument", enabled: true, value: null);
[TearDown]
public async Task TearDown()
{
if (seed is not null)
{
await seed.CleanupAsync(db);
seed = null;
}
}
[Test]
public async Task WhenAnEnvironmentHasFeatureStates_ThenTheEnvironmentDocumentIncludesThem()
{
var current = seed!;
using var response = await client.SendAsync(
httpFile: "EnvironmentDocument.http",
requestName: "GetEnvironmentDocument",
variables: new Dictionary<string, string>
{
["baseUrl"] = settings.BaseUrl,
["environmentKey"] = current.EnvironmentApiKey
});
var body = await response.Content.ReadAsStringAsync();
Assert.That(
response.IsSuccessStatusCode,
Is.True,
$"GET /api/v1/environment-document returned {(int)response.StatusCode} {response.ReasonPhrase}. Body: {body}. DB state:\n{await current.DescribeAsync(db)}");
var document = JsonSerializer.Deserialize<EnvironmentDocumentDto>(body, JsonOptions)
?? throw new InvalidOperationException("Response body was not the expected environment document shape.");
Assert.That(
document.Id,
Is.EqualTo(current.EnvironmentId),
$"Environment document Id did not match the seeded environment. DB state:\n{await current.DescribeAsync(db)}");
var match = document.FeatureStates.SingleOrDefault(f => f.Feature.Name == current.FeatureName);
Assert.That(
match,
Is.Not.Null,
$"Feature '{current.FeatureName}' was not present in the environment document. Returned features: [{string.Join(", ", document.FeatureStates.Select(f => f.Feature.Name))}]. DB state:\n{await current.DescribeAsync(db)}");
Assert.That(match!.Enabled, Is.True);
}
private static readonly JsonSerializerOptions JsonOptions = new(JsonSerializerDefaults.Web);
private sealed record EnvironmentDocumentDto(int Id, string ApiKey, List<FlagResponseDto> FeatureStates, EnvironmentProjectDto Project);
private sealed record EnvironmentProjectDto(int Id, string Name, List<object> Segments);
private sealed record FlagResponseDto(int Id, FeatureSummaryDto Feature, bool Enabled, string? FeatureStateValue);
private sealed record FeatureSummaryDto(int Id, string Name);
}