using Akka.Actor; using Akka.TestKit.Xunit2; using Microsoft.Extensions.Logging.Abstractions; using Microsoft.Extensions.Options; using NSubstitute; using ScadaLink.Commons.Entities.Deployment; using ScadaLink.Commons.Entities.Instances; using ScadaLink.Commons.Interfaces.Repositories; using ScadaLink.Commons.Interfaces.Services; using ScadaLink.Commons.Messages.Deployment; using ScadaLink.Commons.Messages.Lifecycle; using ScadaLink.Commons.Types; using ScadaLink.Commons.Types.Enums; using ScadaLink.Commons.Types.Flattening; using ScadaLink.Communication; using ScadaLink.TemplateEngine.Flattening; namespace ScadaLink.DeploymentManager.Tests; /// /// WP-1/2/4/5/6/8/16: Tests for central-side DeploymentService. /// public class DeploymentServiceTests : TestKit { private readonly IDeploymentManagerRepository _repo; private readonly IFlatteningPipeline _pipeline; private readonly CommunicationService _comms; private readonly OperationLockManager _lockManager; private readonly IAuditService _audit; private readonly DeploymentService _service; public DeploymentServiceTests() { _repo = Substitute.For(); _pipeline = Substitute.For(); _comms = new CommunicationService( Options.Create(new CommunicationOptions()), NullLogger.Instance); _lockManager = new OperationLockManager(); _audit = Substitute.For(); var options = Options.Create(new DeploymentManagerOptions { OperationLockTimeout = TimeSpan.FromSeconds(5) }); var siteRepo = Substitute.For(); _service = new DeploymentService( _repo, siteRepo, _pipeline, _comms, _lockManager, _audit, new DiffService(), new DeploymentStatusNotifier(NullLogger.Instance), options, NullLogger.Instance); } // ── WP-1: Deployment flow ── [Fact] public async Task DeployInstanceAsync_InstanceNotFound_ReturnsFailure() { _repo.GetInstanceByIdAsync(1).Returns((Instance?)null); var result = await _service.DeployInstanceAsync(1, "admin"); Assert.True(result.IsFailure); Assert.Contains("not found", result.Error); } [Fact] public async Task DeployInstanceAsync_ValidationFails_ReturnsFailure() { var instance = new Instance("TestInst") { Id = 1, SiteId = 1, State = InstanceState.NotDeployed }; _repo.GetInstanceByIdAsync(1).Returns(instance); var validationResult = new ValidationResult { Errors = [ValidationEntry.Error(ValidationCategory.ScriptCompilation, "Compile error")] }; _pipeline.FlattenAndValidateAsync(1, Arg.Any()) .Returns(Result.Success( new FlatteningPipelineResult(new FlattenedConfiguration(), "hash1", validationResult))); var result = await _service.DeployInstanceAsync(1, "admin"); Assert.True(result.IsFailure); Assert.Contains("validation failed", result.Error); } [Fact] public async Task DeployInstanceAsync_FlatteningFails_ReturnsFailure() { var instance = new Instance("TestInst") { Id = 1, SiteId = 1, State = InstanceState.NotDeployed }; _repo.GetInstanceByIdAsync(1).Returns(instance); _pipeline.FlattenAndValidateAsync(1, Arg.Any()) .Returns(Result.Failure("Template chain empty")); var result = await _service.DeployInstanceAsync(1, "admin"); Assert.True(result.IsFailure); Assert.Contains("Validation failed", result.Error); } // ── WP-2: Deployment identity ── [Fact] public async Task DeployInstanceAsync_CreatesUniqueDeploymentId() { var instance = new Instance("TestInst") { Id = 1, SiteId = 1, State = InstanceState.NotDeployed }; _repo.GetInstanceByIdAsync(1).Returns(instance); // Pipeline succeeds var config = new FlattenedConfiguration { InstanceUniqueName = "TestInst" }; var validResult = ValidationResult.Success(); _pipeline.FlattenAndValidateAsync(1, Arg.Any()) .Returns(Result.Success( new FlatteningPipelineResult(config, "sha256:abc", validResult))); // Capture the deployment record DeploymentRecord? captured = null; await _repo.AddDeploymentRecordAsync(Arg.Do(r => captured = r), Arg.Any()); // CommunicationService will throw because actor not set -- this tests the flow up to that point try { await _service.DeployInstanceAsync(1, "admin"); } catch (InvalidOperationException) { // Expected -- CommunicationService not initialized } Assert.NotNull(captured); Assert.False(string.IsNullOrEmpty(captured!.DeploymentId)); Assert.Equal(32, captured.DeploymentId.Length); // GUID without hyphens Assert.Equal("sha256:abc", captured.RevisionHash); } // ── WP-4: State transition validation ── [Fact] public async Task DeployInstanceAsync_EnabledInstance_AllowsDeploy() { var instance = new Instance("TestInst") { Id = 1, SiteId = 1, State = InstanceState.Enabled }; _repo.GetInstanceByIdAsync(1).Returns(instance); var config = new FlattenedConfiguration { InstanceUniqueName = "TestInst" }; _pipeline.FlattenAndValidateAsync(1, Arg.Any()) .Returns(Result.Success( new FlatteningPipelineResult(config, "hash", ValidationResult.Success()))); // Will fail at communication layer, but passes state validation try { await _service.DeployInstanceAsync(1, "admin"); } catch (InvalidOperationException) { } // If we got past state validation, the deployment record was created await _repo.Received().AddDeploymentRecordAsync(Arg.Any(), Arg.Any()); } // ── DeploymentManager-001: unexpected exception must not leave record InProgress ── [Fact] public async Task DeployInstanceAsync_CommunicationThrowsUnexpectedException_RecordMarkedFailed() { var instance = new Instance("TestInst") { Id = 1, SiteId = 1, State = InstanceState.NotDeployed }; _repo.GetInstanceByIdAsync(1).Returns(instance); var config = new FlattenedConfiguration { InstanceUniqueName = "TestInst" }; _pipeline.FlattenAndValidateAsync(1, Arg.Any()) .Returns(Result.Success( new FlatteningPipelineResult(config, "sha256:abc", ValidationResult.Success()))); // Capture the deployment record so we can inspect its final state. DeploymentRecord? captured = null; await _repo.AddDeploymentRecordAsync( Arg.Do(r => captured = r), Arg.Any()); // _comms has no actor set, so DeployInstanceAsync throws // InvalidOperationException -- a non-timeout, non-cancellation exception. var result = await _service.DeployInstanceAsync(1, "admin"); // The exception must be handled, not escape. Assert.True(result.IsFailure); Assert.Contains("Deployment failed", result.Error); // The record must not be left stuck in InProgress. Assert.NotNull(captured); Assert.Equal(DeploymentStatus.Failed, captured!.Status); Assert.NotNull(captured.ErrorMessage); Assert.NotNull(captured.CompletedAt); } // ── DeploymentManager-002: failure write must not use a cancelled token ── [Fact] public async Task DeployInstanceAsync_FailureWrite_UsesNonCancellableToken() { var instance = new Instance("TestInst") { Id = 1, SiteId = 1, State = InstanceState.NotDeployed }; _repo.GetInstanceByIdAsync(Arg.Any(), Arg.Any()).Returns(instance); var config = new FlattenedConfiguration { InstanceUniqueName = "TestInst" }; _pipeline.FlattenAndValidateAsync(Arg.Any(), Arg.Any()) .Returns(Result.Success( new FlatteningPipelineResult(config, "sha256:abc", ValidationResult.Success()))); DeploymentRecord? captured = null; await _repo.AddDeploymentRecordAsync( Arg.Do(r => captured = r), Arg.Any()); // Simulate a repository that rejects already-cancelled tokens (the // real EF Core behaviour when the operation token is cancelled). If the // catch block passes the operation's cancelled token, the Failed-status // write throws and the record stays InProgress -- the exact bug. _repo.UpdateDeploymentRecordAsync( Arg.Is(r => r.Status == DeploymentStatus.Failed), Arg.Is(ct => ct.IsCancellationRequested)) .Returns(_ => throw new OperationCanceledException()); _repo.SaveChangesAsync(Arg.Is(ct => ct.IsCancellationRequested)) .Returns>(_ => throw new OperationCanceledException()); // The communication call fails (no actor set). The catch block must // persist the Failed status with a non-cancellable token, so cleanup // succeeds even when the caller's token is cancelled. var result = await _service.DeployInstanceAsync(1, "admin"); Assert.True(result.IsFailure); Assert.NotNull(captured); Assert.Equal(DeploymentStatus.Failed, captured!.Status); // The Failed-status write happened with a non-cancelled token. await _repo.Received().UpdateDeploymentRecordAsync( Arg.Is(r => r.Status == DeploymentStatus.Failed), Arg.Is(ct => !ct.IsCancellationRequested)); } // ── WP-6: Lifecycle commands ── [Fact] public async Task DisableInstanceAsync_InstanceNotFound_ReturnsFailure() { _repo.GetInstanceByIdAsync(1).Returns((Instance?)null); var result = await _service.DisableInstanceAsync(1, "admin"); Assert.True(result.IsFailure); Assert.Contains("not found", result.Error); } [Fact] public async Task DisableInstanceAsync_WhenDisabled_ReturnsTransitionError() { var instance = new Instance("TestInst") { Id = 1, SiteId = 1, State = InstanceState.Disabled }; _repo.GetInstanceByIdAsync(1).Returns(instance); var result = await _service.DisableInstanceAsync(1, "admin"); Assert.True(result.IsFailure); Assert.Contains("not allowed", result.Error); } [Fact] public async Task EnableInstanceAsync_WhenEnabled_ReturnsTransitionError() { var instance = new Instance("TestInst") { Id = 1, SiteId = 1, State = InstanceState.Enabled }; _repo.GetInstanceByIdAsync(1).Returns(instance); var result = await _service.EnableInstanceAsync(1, "admin"); Assert.True(result.IsFailure); Assert.Contains("not allowed", result.Error); } [Fact] public async Task DeleteInstanceAsync_InstanceNotFound_ReturnsFailure() { _repo.GetInstanceByIdAsync(1).Returns((Instance?)null); var result = await _service.DeleteInstanceAsync(1, "admin"); Assert.True(result.IsFailure); Assert.Contains("not found", result.Error); } // ── DeploymentManager-004: site-success but central-delete-failure must not escape uncaught ── [Fact] public async Task DeleteInstanceAsync_SiteSucceeds_CentralDeleteFails_ReturnsDistinctFailure() { // The site destroys the Instance Actor and removes its config (response // Success), but the central record removal throws. The exception must // NOT propagate uncaught -- it must be surfaced as a distinct failure so // an operator can reconcile the orphaned central record. var instance = new Instance("OrphanInst") { Id = 30, SiteId = 1, State = InstanceState.Enabled }; _repo.GetInstanceByIdAsync(30, Arg.Any()).Returns(instance); _repo.DeleteInstanceAsync(30, Arg.Any()) .Returns(_ => throw new InvalidOperationException("db unavailable")); var commActor = Sys.ActorOf(Props.Create(() => new ReconcileProbeActor(siteHash: "sha256:x", failQuery: false))); var service = CreateServiceWithCommActor(commActor); var result = await service.DeleteInstanceAsync(30, "admin"); // The failure is surfaced (not thrown) and clearly says the site // succeeded but the central record could not be removed. Assert.True(result.IsFailure); Assert.Contains("site", result.Error, StringComparison.OrdinalIgnoreCase); Assert.Contains("central", result.Error, StringComparison.OrdinalIgnoreCase); } // ── WP-8: Deployment comparison ── [Fact] public async Task GetDeploymentComparisonAsync_NoSnapshot_ReturnsFailure() { _repo.GetDeployedSnapshotByInstanceIdAsync(1).Returns((DeployedConfigSnapshot?)null); var result = await _service.GetDeploymentComparisonAsync(1); Assert.True(result.IsFailure); Assert.Contains("No deployed snapshot", result.Error); } [Fact] public async Task GetDeploymentComparisonAsync_SameHash_NotStale() { var snapshot = new DeployedConfigSnapshot("dep1", "sha256:abc", "{}") { InstanceId = 1, DeployedAt = DateTimeOffset.UtcNow }; _repo.GetDeployedSnapshotByInstanceIdAsync(1).Returns(snapshot); var config = new FlattenedConfiguration { InstanceUniqueName = "TestInst" }; _pipeline.FlattenAndValidateAsync(1, Arg.Any()) .Returns(Result.Success( new FlatteningPipelineResult(config, "sha256:abc", ValidationResult.Success()))); var result = await _service.GetDeploymentComparisonAsync(1); Assert.True(result.IsSuccess); Assert.False(result.Value.IsStale); } [Fact] public async Task GetDeploymentComparisonAsync_DifferentHash_IsStale() { var snapshot = new DeployedConfigSnapshot("dep1", "sha256:abc", "{}") { InstanceId = 1, DeployedAt = DateTimeOffset.UtcNow }; _repo.GetDeployedSnapshotByInstanceIdAsync(1).Returns(snapshot); var config = new FlattenedConfiguration { InstanceUniqueName = "TestInst" }; _pipeline.FlattenAndValidateAsync(1, Arg.Any()) .Returns(Result.Success( new FlatteningPipelineResult(config, "sha256:xyz", ValidationResult.Success()))); var result = await _service.GetDeploymentComparisonAsync(1); Assert.True(result.IsSuccess); Assert.True(result.Value.IsStale); } // ── DeploymentManager-007: comparison must produce a structured diff ── [Fact] public async Task GetDeploymentComparisonAsync_ProducesStructuredDiff() { // The deployed snapshot has one attribute; the current template-derived // config has a different attribute. The comparison must surface a real // Added/Removed diff via the TemplateEngine DiffService, not just a // boolean staleness flag. var deployedConfig = new FlattenedConfiguration { InstanceUniqueName = "DiffInst", Attributes = [new ResolvedAttribute { CanonicalName = "OldAttr", DataType = "Int" }] }; var snapshot = new DeployedConfigSnapshot( "dep1", "sha256:old", System.Text.Json.JsonSerializer.Serialize(deployedConfig)) { InstanceId = 40, DeployedAt = DateTimeOffset.UtcNow }; _repo.GetDeployedSnapshotByInstanceIdAsync(40, Arg.Any()).Returns(snapshot); var currentConfig = new FlattenedConfiguration { InstanceUniqueName = "DiffInst", Attributes = [new ResolvedAttribute { CanonicalName = "NewAttr", DataType = "Int" }] }; _pipeline.FlattenAndValidateAsync(40, Arg.Any()) .Returns(Result.Success( new FlatteningPipelineResult(currentConfig, "sha256:new", ValidationResult.Success()))); var result = await _service.GetDeploymentComparisonAsync(40); Assert.True(result.IsSuccess); Assert.True(result.Value.IsStale); // A structured diff is present with the added and removed attributes. Assert.NotNull(result.Value.Diff); Assert.True(result.Value.Diff!.HasChanges); Assert.Contains(result.Value.Diff.AttributeChanges, c => c.CanonicalName == "NewAttr" && c.ChangeType == DiffChangeType.Added); Assert.Contains(result.Value.Diff.AttributeChanges, c => c.CanonicalName == "OldAttr" && c.ChangeType == DiffChangeType.Removed); } // ── WP-2: GetDeploymentStatusAsync ── [Fact] public async Task GetDeploymentStatusAsync_ReturnsRecordByDeploymentId() { var record = new DeploymentRecord("dep1", "admin") { Status = DeploymentStatus.Success }; _repo.GetDeploymentByDeploymentIdAsync("dep1").Returns(record); var result = await _service.GetDeploymentStatusAsync("dep1"); Assert.NotNull(result); Assert.Equal("dep1", result!.DeploymentId); Assert.Equal(DeploymentStatus.Success, result.Status); } // ── Audit logging ── [Fact] public async Task DeployInstanceAsync_FlatteningFails_DoesNotReachAudit() { // DeploymentManager-011: this test previously asserted nothing. A // flatten failure returns before any site communication, so no audit // entry is written. var instance = new Instance("TestInst") { Id = 1, SiteId = 1, State = InstanceState.NotDeployed }; _repo.GetInstanceByIdAsync(1).Returns(instance); _pipeline.FlattenAndValidateAsync(1, Arg.Any()) .Returns(Result.Failure("Error")); await _service.DeployInstanceAsync(1, "admin"); await _audit.DidNotReceive().LogAsync( Arg.Any(), Arg.Any(), Arg.Any(), Arg.Any(), Arg.Any(), Arg.Any(), Arg.Any()); } [Fact] public async Task DeployInstanceAsync_SiteSucceeds_WritesDeployAuditEntry() { // DeploymentManager-011: a successful deployment must write a "Deploy" // audit entry referencing the deployed instance. var instance = new Instance("AuditInst") { Id = 50, SiteId = 1, State = InstanceState.NotDeployed }; _repo.GetInstanceByIdAsync(50, Arg.Any()).Returns(instance); SetupValidPipeline(50, "AuditInst", "sha256:target"); _repo.GetCurrentDeploymentStatusAsync(50, Arg.Any()) .Returns((DeploymentRecord?)null); var commActor = Sys.ActorOf(Props.Create(() => new ReconcileProbeActor(siteHash: "sha256:target", failQuery: false))); var service = CreateServiceWithCommActor(commActor); var result = await service.DeployInstanceAsync(50, "admin"); Assert.True(result.IsSuccess); await _audit.Received().LogAsync( "admin", "Deploy", "Instance", "50", "AuditInst", Arg.Any(), Arg.Any()); } // ── DeploymentManager-011: lifecycle success paths ── [Fact] public async Task DisableInstanceAsync_SiteSucceeds_SetsDisabledStateAndAudits() { var instance = new Instance("DisInst") { Id = 51, SiteId = 1, State = InstanceState.Enabled }; _repo.GetInstanceByIdAsync(51, Arg.Any()).Returns(instance); var commActor = Sys.ActorOf(Props.Create(() => new ReconcileProbeActor(siteHash: "x", failQuery: false))); var service = CreateServiceWithCommActor(commActor); var result = await service.DisableInstanceAsync(51, "admin"); Assert.True(result.IsSuccess); Assert.Equal(InstanceState.Disabled, instance.State); await _repo.Received().UpdateInstanceAsync(instance, Arg.Any()); await _audit.Received().LogAsync( "admin", "Disable", "Instance", "51", "DisInst", Arg.Any(), Arg.Any()); } [Fact] public async Task EnableInstanceAsync_SiteSucceeds_SetsEnabledStateAndAudits() { var instance = new Instance("EnInst") { Id = 52, SiteId = 1, State = InstanceState.Disabled }; _repo.GetInstanceByIdAsync(52, Arg.Any()).Returns(instance); var commActor = Sys.ActorOf(Props.Create(() => new ReconcileProbeActor(siteHash: "x", failQuery: false))); var service = CreateServiceWithCommActor(commActor); var result = await service.EnableInstanceAsync(52, "admin"); Assert.True(result.IsSuccess); Assert.Equal(InstanceState.Enabled, instance.State); await _repo.Received().UpdateInstanceAsync(instance, Arg.Any()); await _audit.Received().LogAsync( "admin", "Enable", "Instance", "52", "EnInst", Arg.Any(), Arg.Any()); } [Fact] public async Task DeleteInstanceAsync_SiteSucceeds_RemovesRecordAndAudits() { var instance = new Instance("DelInst") { Id = 53, SiteId = 1, State = InstanceState.Enabled }; _repo.GetInstanceByIdAsync(53, Arg.Any()).Returns(instance); var commActor = Sys.ActorOf(Props.Create(() => new ReconcileProbeActor(siteHash: "x", failQuery: false))); var service = CreateServiceWithCommActor(commActor); var result = await service.DeleteInstanceAsync(53, "admin"); Assert.True(result.IsSuccess); await _repo.Received().DeleteInstanceAsync(53, Arg.Any()); await _audit.Received().LogAsync( "admin", "Delete", "Instance", "53", "DelInst", Arg.Any(), Arg.Any()); } [Fact] public async Task DeployInstanceAsync_SameInstance_OperationLockSerializesConcurrentDeploys() { // DeploymentManager-011: two concurrent deploys of the SAME instance // must be serialized by the per-instance operation lock — the site sees // them one at a time, never overlapping. var instance = new Instance("LockInst") { Id = 54, SiteId = 1, State = InstanceState.Enabled }; _repo.GetInstanceByIdAsync(54, Arg.Any()).Returns(instance); SetupValidPipeline(54, "LockInst", "sha256:target"); _repo.GetCurrentDeploymentStatusAsync(54, Arg.Any()) .Returns((DeploymentRecord?)null); var commActor = Sys.ActorOf(Props.Create(() => new SerializationProbeActor())); var service = CreateServiceWithCommActor(commActor); var deploy1 = service.DeployInstanceAsync(54, "admin"); var deploy2 = service.DeployInstanceAsync(54, "admin"); var results = await Task.WhenAll(deploy1, deploy2); Assert.True(results[0].IsSuccess); Assert.True(results[1].IsSuccess); // The probe records the maximum concurrency observed; the lock must // keep it at 1 for a single instance. Assert.Equal(1, SerializationProbeActor.MaxConcurrent); } // ── DeploymentManager-006: query-the-site-before-redeploy idempotency ── /// /// Builds a DeploymentService whose CommunicationService is backed by the /// supplied actor, so the site query and deploy commands can be observed. /// private DeploymentService CreateServiceWithCommActor(IActorRef commActor) { var comms = new CommunicationService( Options.Create(new CommunicationOptions { QueryTimeout = TimeSpan.FromSeconds(5), DeploymentTimeout = TimeSpan.FromSeconds(5) }), NullLogger.Instance); comms.SetCommunicationActor(commActor); var siteRepo = Substitute.For(); return new DeploymentService( _repo, siteRepo, _pipeline, comms, _lockManager, _audit, new DiffService(), new DeploymentStatusNotifier(NullLogger.Instance), Options.Create(new DeploymentManagerOptions { OperationLockTimeout = TimeSpan.FromSeconds(5) }), NullLogger.Instance); } private void SetupValidPipeline(int instanceId, string instanceName, string revisionHash) { var config = new FlattenedConfiguration { InstanceUniqueName = instanceName }; _pipeline.FlattenAndValidateAsync(instanceId, Arg.Any()) .Returns(Result.Success( new FlatteningPipelineResult(config, revisionHash, ValidationResult.Success()))); } [Fact] public async Task DeployInstanceAsync_PriorInProgressRecord_SiteHasTargetHash_MarksSuccessWithoutRedeploy() { // Prior record stuck InProgress -> site is queried. The site reports it // already has the TARGET revision hash, so the prior record is marked // Success and NO new DeployInstanceCommand is sent. var instance = new Instance("RedeployInst") { Id = 7, SiteId = 1, State = InstanceState.Enabled }; _repo.GetInstanceByIdAsync(7, Arg.Any()).Returns(instance); SetupValidPipeline(7, "RedeployInst", "sha256:target"); var prior = new DeploymentRecord("dep-prior", "admin") { InstanceId = 7, Status = DeploymentStatus.InProgress, RevisionHash = "sha256:target" }; _repo.GetCurrentDeploymentStatusAsync(7, Arg.Any()).Returns(prior); var commActor = Sys.ActorOf(Props.Create(() => new ReconcileProbeActor(siteHash: "sha256:target", failQuery: false))); var service = CreateServiceWithCommActor(commActor); var result = await service.DeployInstanceAsync(7, "admin"); Assert.True(result.IsSuccess); Assert.Equal(DeploymentStatus.Success, prior.Status); // The site query was issued, but no new deploy command was sent. Assert.Equal(1, ReconcileProbeActor.QueryCount); Assert.Equal(0, ReconcileProbeActor.DeployCount); // No new deployment record was created — the prior one was reconciled. await _repo.DidNotReceive().AddDeploymentRecordAsync( Arg.Any(), Arg.Any()); } [Fact] public async Task DeployInstanceAsync_PriorInProgressRecord_SiteHasDifferentHash_ProceedsWithDeploy() { // Prior record stuck InProgress -> site is queried. The site has a // DIFFERENT revision hash, so the normal deploy proceeds. var instance = new Instance("RedeployInst2") { Id = 8, SiteId = 1, State = InstanceState.Enabled }; _repo.GetInstanceByIdAsync(8, Arg.Any()).Returns(instance); SetupValidPipeline(8, "RedeployInst2", "sha256:target"); var prior = new DeploymentRecord("dep-prior2", "admin") { InstanceId = 8, Status = DeploymentStatus.InProgress, RevisionHash = "sha256:old" }; _repo.GetCurrentDeploymentStatusAsync(8, Arg.Any()).Returns(prior); var commActor = Sys.ActorOf(Props.Create(() => new ReconcileProbeActor(siteHash: "sha256:old", failQuery: false))); var service = CreateServiceWithCommActor(commActor); var result = await service.DeployInstanceAsync(8, "admin"); Assert.True(result.IsSuccess); Assert.Equal(1, ReconcileProbeActor.QueryCount); // The normal deploy proceeded — a new command was sent. Assert.Equal(1, ReconcileProbeActor.DeployCount); await _repo.Received().AddDeploymentRecordAsync( Arg.Any(), Arg.Any()); } [Fact] public async Task DeployInstanceAsync_PriorFailedTimeoutRecord_QueriesSite() { // A prior record Failed due to a timeout also triggers the site query. var instance = new Instance("TimedOutInst") { Id = 9, SiteId = 1, State = InstanceState.Enabled }; _repo.GetInstanceByIdAsync(9, Arg.Any()).Returns(instance); SetupValidPipeline(9, "TimedOutInst", "sha256:target"); var prior = new DeploymentRecord("dep-prior3", "admin") { InstanceId = 9, Status = DeploymentStatus.Failed, RevisionHash = "sha256:target", ErrorMessage = "Communication failure: deployment Ask timed out" }; _repo.GetCurrentDeploymentStatusAsync(9, Arg.Any()).Returns(prior); var commActor = Sys.ActorOf(Props.Create(() => new ReconcileProbeActor(siteHash: "sha256:target", failQuery: false))); var service = CreateServiceWithCommActor(commActor); var result = await service.DeployInstanceAsync(9, "admin"); Assert.True(result.IsSuccess); Assert.Equal(1, ReconcileProbeActor.QueryCount); Assert.Equal(0, ReconcileProbeActor.DeployCount); Assert.Equal(DeploymentStatus.Success, prior.Status); } [Fact] public async Task DeployInstanceAsync_PriorSuccessRecord_SkipsSiteQuery() { // A clean prior Success record must NOT trigger the extra round-trip. var instance = new Instance("CleanInst") { Id = 10, SiteId = 1, State = InstanceState.Enabled }; _repo.GetInstanceByIdAsync(10, Arg.Any()).Returns(instance); SetupValidPipeline(10, "CleanInst", "sha256:target"); var prior = new DeploymentRecord("dep-clean", "admin") { InstanceId = 10, Status = DeploymentStatus.Success, RevisionHash = "sha256:old" }; _repo.GetCurrentDeploymentStatusAsync(10, Arg.Any()).Returns(prior); var commActor = Sys.ActorOf(Props.Create(() => new ReconcileProbeActor(siteHash: "sha256:target", failQuery: false))); var service = CreateServiceWithCommActor(commActor); var result = await service.DeployInstanceAsync(10, "admin"); Assert.True(result.IsSuccess); // No site query — the prior deploy completed cleanly. Assert.Equal(0, ReconcileProbeActor.QueryCount); Assert.Equal(1, ReconcileProbeActor.DeployCount); } [Fact] public async Task DeployInstanceAsync_FreshFirstTimeDeploy_SkipsSiteQuery() { // No prior record at all -> fresh deploy, no extra round-trip. var instance = new Instance("FreshInst") { Id = 11, SiteId = 1, State = InstanceState.NotDeployed }; _repo.GetInstanceByIdAsync(11, Arg.Any()).Returns(instance); SetupValidPipeline(11, "FreshInst", "sha256:target"); _repo.GetCurrentDeploymentStatusAsync(11, Arg.Any()) .Returns((DeploymentRecord?)null); var commActor = Sys.ActorOf(Props.Create(() => new ReconcileProbeActor(siteHash: "sha256:target", failQuery: false))); var service = CreateServiceWithCommActor(commActor); var result = await service.DeployInstanceAsync(11, "admin"); Assert.True(result.IsSuccess); Assert.Equal(0, ReconcileProbeActor.QueryCount); Assert.Equal(1, ReconcileProbeActor.DeployCount); } [Fact] public async Task DeployInstanceAsync_PriorInProgressRecord_QueryFails_FallsThroughToDeploy() { // The site query fails (unreachable / times out). The deploy must NOT // abort — it falls through to a normal deploy and relies on site-side // stale-rejection as the safety net. var instance = new Instance("UnreachableInst") { Id = 12, SiteId = 1, State = InstanceState.Enabled }; _repo.GetInstanceByIdAsync(12, Arg.Any()).Returns(instance); SetupValidPipeline(12, "UnreachableInst", "sha256:target"); var prior = new DeploymentRecord("dep-prior5", "admin") { InstanceId = 12, Status = DeploymentStatus.InProgress, RevisionHash = "sha256:target" }; _repo.GetCurrentDeploymentStatusAsync(12, Arg.Any()).Returns(prior); // The probe drops the query (no reply) -> the Ask times out. var commActor = Sys.ActorOf(Props.Create(() => new ReconcileProbeActor(siteHash: "sha256:target", failQuery: true))); var service = CreateServiceWithCommActor(commActor); var result = await service.DeployInstanceAsync(12, "admin"); // Did not abort — the deploy proceeded after the failed query. Assert.True(result.IsSuccess); Assert.Equal(1, ReconcileProbeActor.QueryCount); Assert.Equal(1, ReconcileProbeActor.DeployCount); } // ── DeploymentManager-012: LifecycleCommandTimeout must actually bound lifecycle commands ── [Fact] public async Task DisableInstanceAsync_SiteUnresponsive_LifecycleCommandTimeoutBoundsTheWait() { // The site never replies to the DisableInstanceCommand. A short // LifecycleCommandTimeout must abort the wait quickly -- if the option // is dead code the call would instead hang until CommunicationOptions // .LifecycleTimeout (much longer) elapses. var instance = new Instance("StuckInst") { Id = 60, SiteId = 1, State = InstanceState.Enabled }; _repo.GetInstanceByIdAsync(60, Arg.Any()).Returns(instance); // Probe drops every message -> no reply ever arrives. var commActor = Sys.ActorOf(Props.Create(() => new SilentProbeActor())); var comms = new CommunicationService( Options.Create(new CommunicationOptions { // Long communication-layer timeout: if LifecycleCommandTimeout // were dead, the test would wait this long. LifecycleTimeout = TimeSpan.FromSeconds(30) }), NullLogger.Instance); comms.SetCommunicationActor(commActor); var siteRepo = Substitute.For(); var service = new DeploymentService( _repo, siteRepo, _pipeline, comms, _lockManager, _audit, new DiffService(), new DeploymentStatusNotifier(NullLogger.Instance), Options.Create(new DeploymentManagerOptions { OperationLockTimeout = TimeSpan.FromSeconds(5), LifecycleCommandTimeout = TimeSpan.FromMilliseconds(300) }), NullLogger.Instance); var sw = System.Diagnostics.Stopwatch.StartNew(); var result = await service.DisableInstanceAsync(60, "admin"); sw.Stop(); Assert.True(result.IsFailure); // The 300ms LifecycleCommandTimeout bounded the wait well under the // 30s communication-layer timeout. Assert.True(sw.Elapsed < TimeSpan.FromSeconds(10), $"Lifecycle command was not bounded by LifecycleCommandTimeout (took {sw.Elapsed})."); } /// Stand-in actor that never replies to anything. private class SilentProbeActor : ReceiveActor { public SilentProbeActor() => ReceiveAny(_ => { }); } // ── DeploymentManager-003: post-success persistence must commit the Success status ── [Fact] public async Task DeployInstanceAsync_SiteSucceeds_SnapshotWriteFails_RecordStillCommittedSuccess() { // The site applies the deployment (response Success), but storing the // deployed-config snapshot afterwards throws. The deployment record's // Success status MUST still be durably committed -- otherwise central // and site diverge: the site runs the new config while central shows a // non-Success record forever. var instance = new Instance("SnapFailInst") { Id = 20, SiteId = 1, State = InstanceState.NotDeployed }; _repo.GetInstanceByIdAsync(20, Arg.Any()).Returns(instance); SetupValidPipeline(20, "SnapFailInst", "sha256:target"); _repo.GetCurrentDeploymentStatusAsync(20, Arg.Any()) .Returns((DeploymentRecord?)null); DeploymentRecord? captured = null; await _repo.AddDeploymentRecordAsync( Arg.Do(r => captured = r), Arg.Any()); // The snapshot store throws. _repo.GetDeployedSnapshotByInstanceIdAsync(20, Arg.Any()) .Returns((DeployedConfigSnapshot?)null); _repo.AddDeployedSnapshotAsync(Arg.Any(), Arg.Any()) .Returns(_ => throw new InvalidOperationException("snapshot store unavailable")); var commActor = Sys.ActorOf(Props.Create(() => new ReconcileProbeActor(siteHash: "sha256:target", failQuery: false))); var service = CreateServiceWithCommActor(commActor); var result = await service.DeployInstanceAsync(20, "admin"); // The site succeeded -> the deployment is reported successful. Assert.True(result.IsSuccess); Assert.NotNull(captured); Assert.Equal(DeploymentStatus.Success, captured!.Status); // The Success status was committed (a SaveChanges happened with the // record in Success state) BEFORE the snapshot write was attempted. await _repo.Received().UpdateDeploymentRecordAsync( Arg.Is(r => r.Status == DeploymentStatus.Success), Arg.Any()); } /// /// Stand-in CentralCommunicationActor that measures deploy concurrency. It /// defers each deploy reply via the scheduler, so if two deploys for the /// same instance were NOT serialized by the operation lock their windows /// would overlap and would exceed 1. /// private class SerializationProbeActor : ReceiveActor, IWithTimers { public static int MaxConcurrent; private static int _current; private static readonly object Gate = new(); public ITimerScheduler Timers { get; set; } = null!; public SerializationProbeActor() { MaxConcurrent = 0; _current = 0; Receive(env => { if (env.Message is DeployInstanceCommand d) { lock (Gate) { _current++; if (_current > MaxConcurrent) MaxConcurrent = _current; } var replyTo = Sender; // Defer the reply so the deploy "window" stays open long // enough for a non-serialized second deploy to overlap. Timers.StartSingleTimer( d.DeploymentId, new CompleteDeploy(d, replyTo), TimeSpan.FromMilliseconds(150)); } else if (env.Message is DeploymentStateQueryRequest q) { Sender.Tell(new DeploymentStateQueryResponse( q.CorrelationId, q.InstanceUniqueName, false, null, null, DateTimeOffset.UtcNow)); } }); Receive(c => { lock (Gate) { _current--; } c.ReplyTo.Tell(new DeploymentStatusResponse( c.Command.DeploymentId, c.Command.InstanceUniqueName, DeploymentStatus.Success, null, DateTimeOffset.UtcNow)); }); } private sealed record CompleteDeploy(DeployInstanceCommand Command, IActorRef ReplyTo); } /// /// Stand-in CentralCommunicationActor for reconciliation tests. Counts the /// site queries and deploy commands it receives, answers queries with a /// configurable applied revision hash, and (optionally) drops the query to /// simulate an unreachable site so the central Ask times out. /// private class ReconcileProbeActor : ReceiveActor { public static int QueryCount; public static int DeployCount; public ReconcileProbeActor(string siteHash, bool failQuery) { // Each test creates a fresh actor; reset the shared counters. QueryCount = 0; DeployCount = 0; Receive(env => { switch (env.Message) { case DeploymentStateQueryRequest q: QueryCount++; if (!failQuery) { Sender.Tell(new DeploymentStateQueryResponse( q.CorrelationId, q.InstanceUniqueName, true, "dep-applied", siteHash, DateTimeOffset.UtcNow)); } // failQuery: drop the message -> caller's Ask times out. break; case DeployInstanceCommand d: DeployCount++; Sender.Tell(new DeploymentStatusResponse( d.DeploymentId, d.InstanceUniqueName, DeploymentStatus.Success, null, DateTimeOffset.UtcNow)); break; case DisableInstanceCommand dis: Sender.Tell(new InstanceLifecycleResponse( dis.CommandId, dis.InstanceUniqueName, true, null, DateTimeOffset.UtcNow)); break; case EnableInstanceCommand en: Sender.Tell(new InstanceLifecycleResponse( en.CommandId, en.InstanceUniqueName, true, null, DateTimeOffset.UtcNow)); break; case DeleteInstanceCommand del: Sender.Tell(new InstanceLifecycleResponse( del.CommandId, del.InstanceUniqueName, true, null, DateTimeOffset.UtcNow)); break; } }); } } }