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test(auditlog): cached call combined telemetry end-to-end (#23 M3)

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Joseph Doherty
2026-05-20 15:25:10 -04:00
parent a3b0fb7f08
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tests/ScadaLink.AuditLog.Tests/Integration/CachedCallCombinedTelemetryTests.cs Normal file
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using Akka.TestKit.Xunit2;
using Microsoft.EntityFrameworkCore;
using ScadaLink.AuditLog.Tests.Integration.Infrastructure;
using ScadaLink.Commons.Entities.Audit;
using ScadaLink.Commons.Interfaces.Services;
using ScadaLink.Commons.Messages.Integration;
using ScadaLink.Commons.Types;
using ScadaLink.Commons.Types.Enums;
using ScadaLink.ConfigurationDatabase.Tests.Migrations;
namespace ScadaLink.AuditLog.Tests.Integration;
/// <summary>
/// Bundle G G2 end-to-end suite for cached <c>ExternalSystem.CachedCall</c>
/// lifecycle telemetry (Audit Log #23 / M3). Wires the full M3 pipeline:
/// site-local SQLite audit writer + operation tracking store + the production
/// <see cref="CachedCallTelemetryForwarder"/> + the test-side
/// <see cref="CombinedTelemetryDispatcher"/> that ALSO pushes each combined
/// packet through the stub gRPC client into the central
/// <c>AuditLogIngestActor</c>'s dual-write transaction against a per-test
/// MSSQL database. Asserts the audit rows + the SiteCalls row + the
/// site-local tracking row converge to the expected shape for each lifecycle.
/// </summary>
/// <remarks>
/// <para>
/// The bridge is driven directly via <see cref="CombinedTelemetryHarness.EmitAttemptAsync"/>
/// — these tests do NOT spin up the actual S&amp;F retry loop; that would
/// require a full SiteRuntime host and is out of scope for M3 (the S&amp;F
/// observer hooks are exercised in <c>ScadaLink.StoreAndForward.Tests</c> at
/// unit level). The submit row is emitted via
/// <see cref="CombinedTelemetryHarness.EmitSubmitAsync"/> because the
/// production submit emission happens at the script-call site, not inside the
/// S&amp;F loop.
/// </para>
/// <para>
/// Each test uses a unique <c>SourceSite</c> id (Guid suffix) so concurrent
/// tests sharing the per-fixture MSSQL database don't interfere with each
/// other.
/// </para>
/// </remarks>
public class CachedCallCombinedTelemetryTests : TestKit, IClassFixture<MsSqlMigrationFixture>
{
private readonly MsSqlMigrationFixture _fixture;
public CachedCallCombinedTelemetryTests(MsSqlMigrationFixture fixture)
{
_fixture = fixture;
}
private static string NewSiteId() =>
"test-g2-cached-" + Guid.NewGuid().ToString("N").Substring(0, 8);
private static CachedCallTelemetry SubmitPacket(
TrackedOperationId id, string siteId, DateTime nowUtc, string target = "ERP.GetOrder") =>
new(
Audit: new AuditEvent
{
EventId = Guid.NewGuid(),
OccurredAtUtc = nowUtc,
Channel = AuditChannel.ApiOutbound,
Kind = AuditKind.CachedSubmit,
CorrelationId = id.Value,
SourceSiteId = siteId,
SourceInstanceId = "Plant.Pump42",
SourceScript = "ScriptActor:doStuff",
Target = target,
Status = AuditStatus.Submitted,
ForwardState = AuditForwardState.Pending,
},
Operational: new SiteCallOperational(
TrackedOperationId: id,
Channel: "ApiOutbound",
Target: target,
SourceSite: siteId,
Status: "Submitted",
RetryCount: 0,
LastError: null,
HttpStatus: null,
CreatedAtUtc: nowUtc,
UpdatedAtUtc: nowUtc,
TerminalAtUtc: null));
private static CachedCallAttemptContext AttemptContext(
TrackedOperationId id,
string siteId,
CachedCallAttemptOutcome outcome,
int retryCount,
string? lastError,
int? httpStatus,
DateTime createdUtc,
DateTime occurredUtc,
string target = "ERP.GetOrder",
string channel = "ApiOutbound") =>
new(
TrackedOperationId: id,
Channel: channel,
Target: target,
SourceSite: siteId,
Outcome: outcome,
RetryCount: retryCount,
LastError: lastError,
HttpStatus: httpStatus,
CreatedAtUtc: createdUtc,
OccurredAtUtc: occurredUtc,
DurationMs: 42,
SourceInstanceId: "Plant.Pump42");
[SkippableFact]
public async Task CachedCall_FailFailSuccess_Emits_5_AuditRows_AND_1_SiteCall_Delivered()
{
Skip.IfNot(_fixture.Available, _fixture.SkipReason);
var siteId = NewSiteId();
var trackedId = TrackedOperationId.New();
var t0 = new DateTime(2026, 5, 20, 10, 0, 0, DateTimeKind.Utc);
await using var harness = new CombinedTelemetryHarness(_fixture, this);
// Submit
await harness.EmitSubmitAsync(SubmitPacket(trackedId, siteId, t0));
// Attempt 1: transient HTTP 500
await harness.EmitAttemptAsync(AttemptContext(
trackedId, siteId,
CachedCallAttemptOutcome.TransientFailure,
retryCount: 1, lastError: "HTTP 500", httpStatus: 500,
createdUtc: t0, occurredUtc: t0.AddSeconds(5)));
// Attempt 2: transient HTTP 500
await harness.EmitAttemptAsync(AttemptContext(
trackedId, siteId,
CachedCallAttemptOutcome.TransientFailure,
retryCount: 2, lastError: "HTTP 500", httpStatus: 500,
createdUtc: t0, occurredUtc: t0.AddSeconds(15)));
// Attempt 3: delivered (terminal — emits Attempted + CachedResolve)
await harness.EmitAttemptAsync(AttemptContext(
trackedId, siteId,
CachedCallAttemptOutcome.Delivered,
retryCount: 3, lastError: null, httpStatus: 200,
createdUtc: t0, occurredUtc: t0.AddSeconds(25)));
// Central side: each forward through the dispatcher round-trips
// through the stub client + ingest actor, so by the time the awaits
// complete the rows are visible in MSSQL.
await using var read = harness.CreateReadContext();
// 1 Submit + 2 transient Attempted + 1 terminal Attempted + 1
// CachedResolve = 5 audit rows. The plan allows 4-5; this is the
// happy path emitting exactly 5.
var auditRows = await read.Set<AuditEvent>()
.Where(e => e.SourceSiteId == siteId)
.ToListAsync();
Assert.InRange(auditRows.Count, 4, 5);
// All audit rows must share the same CorrelationId (= TrackedOperationId).
Assert.All(auditRows, r => Assert.Equal(trackedId.Value, r.CorrelationId));
// Exactly one CachedSubmit row.
Assert.Single(auditRows, r => r.Kind == AuditKind.CachedSubmit);
// Exactly one terminal CachedResolve row, status Delivered.
var resolve = Assert.Single(auditRows, r => r.Kind == AuditKind.CachedResolve);
Assert.Equal(AuditStatus.Delivered, resolve.Status);
// SiteCalls row: Delivered, RetryCount=3, TerminalAtUtc set.
var siteCall = await read.Set<SiteCall>()
.SingleAsync(s => s.TrackedOperationId == trackedId);
Assert.Equal("Delivered", siteCall.Status);
Assert.Equal(3, siteCall.RetryCount);
Assert.NotNull(siteCall.TerminalAtUtc);
// Site-local Tracking.Status mirrors the same outcome.
var snapshot = await harness.TrackingStore.GetStatusAsync(trackedId);
Assert.NotNull(snapshot);
Assert.Equal("Delivered", snapshot!.Status);
Assert.NotNull(snapshot.TerminalAtUtc);
}
[SkippableFact]
public async Task CachedCall_AllAttemptsFailedAndParked_Emits_Terminal_Parked()
{
Skip.IfNot(_fixture.Available, _fixture.SkipReason);
var siteId = NewSiteId();
var trackedId = TrackedOperationId.New();
var t0 = new DateTime(2026, 5, 20, 11, 0, 0, DateTimeKind.Utc);
await using var harness = new CombinedTelemetryHarness(_fixture, this);
await harness.EmitSubmitAsync(SubmitPacket(trackedId, siteId, t0));
// Three transient failures...
for (int i = 1; i <= 3; i++)
{
await harness.EmitAttemptAsync(AttemptContext(
trackedId, siteId,
CachedCallAttemptOutcome.TransientFailure,
retryCount: i, lastError: "HTTP 500", httpStatus: 500,
createdUtc: t0, occurredUtc: t0.AddSeconds(i * 5)));
}
// ...then S&F gives up — ParkedMaxRetries.
await harness.EmitAttemptAsync(AttemptContext(
trackedId, siteId,
CachedCallAttemptOutcome.ParkedMaxRetries,
retryCount: 4, lastError: "HTTP 500", httpStatus: 500,
createdUtc: t0, occurredUtc: t0.AddSeconds(30)));
await using var read = harness.CreateReadContext();
var siteCall = await read.Set<SiteCall>()
.SingleAsync(s => s.TrackedOperationId == trackedId);
Assert.Equal("Parked", siteCall.Status);
Assert.NotNull(siteCall.TerminalAtUtc);
// Terminal audit row should also be Parked.
var resolve = await read.Set<AuditEvent>()
.Where(e => e.SourceSiteId == siteId && e.Kind == AuditKind.CachedResolve)
.SingleAsync();
Assert.Equal(AuditStatus.Parked, resolve.Status);
// Site-local tracking matches.
var snapshot = await harness.TrackingStore.GetStatusAsync(trackedId);
Assert.NotNull(snapshot);
Assert.Equal("Parked", snapshot!.Status);
Assert.NotNull(snapshot.TerminalAtUtc);
}
[SkippableFact]
public async Task CachedCall_ImmediateSuccess_NoSF_Emits_Attempted_And_Resolve_Delivered()
{
Skip.IfNot(_fixture.Available, _fixture.SkipReason);
var siteId = NewSiteId();
var trackedId = TrackedOperationId.New();
var t0 = new DateTime(2026, 5, 20, 12, 0, 0, DateTimeKind.Utc);
await using var harness = new CombinedTelemetryHarness(_fixture, this);
// Submit + immediate delivered attempt (RetryCount = 0).
await harness.EmitSubmitAsync(SubmitPacket(trackedId, siteId, t0));
await harness.EmitAttemptAsync(AttemptContext(
trackedId, siteId,
CachedCallAttemptOutcome.Delivered,
retryCount: 0, lastError: null, httpStatus: 200,
createdUtc: t0, occurredUtc: t0.AddMilliseconds(50)));
await using var read = harness.CreateReadContext();
var siteCall = await read.Set<SiteCall>()
.SingleAsync(s => s.TrackedOperationId == trackedId);
Assert.Equal("Delivered", siteCall.Status);
Assert.Equal(0, siteCall.RetryCount);
Assert.NotNull(siteCall.TerminalAtUtc);
// 1 Submit + 1 Attempted + 1 CachedResolve = 3 audit rows.
var auditRows = await read.Set<AuditEvent>()
.Where(e => e.SourceSiteId == siteId)
.ToListAsync();
Assert.Equal(3, auditRows.Count);
Assert.Single(auditRows, r => r.Kind == AuditKind.CachedSubmit);
Assert.Single(auditRows, r => r.Kind == AuditKind.ApiCallCached);
var resolve = Assert.Single(auditRows, r => r.Kind == AuditKind.CachedResolve);
Assert.Equal(AuditStatus.Delivered, resolve.Status);
var snapshot = await harness.TrackingStore.GetStatusAsync(trackedId);
Assert.NotNull(snapshot);
Assert.Equal("Delivered", snapshot!.Status);
}
}

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tests/ScadaLink.AuditLog.Tests/Integration/Infrastructure/CombinedTelemetryDispatcher.cs Normal file
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using ScadaLink.AuditLog.Site.Telemetry;
using ScadaLink.AuditLog.Telemetry;
using ScadaLink.Commons.Interfaces.Services;
using ScadaLink.Commons.Messages.Integration;
using ScadaLink.Commons.Types;
using ScadaLink.Communication.Grpc;
using Google.Protobuf.WellKnownTypes;
using Timestamp = Google.Protobuf.WellKnownTypes.Timestamp;
namespace ScadaLink.AuditLog.Tests.Integration.Infrastructure;
/// <summary>
/// Test-side combined-telemetry dispatcher: wraps a production
/// <see cref="ICachedCallTelemetryForwarder"/> so the local audit + tracking
/// stores still get written, then projects the same packet onto the wire as a
/// <see cref="CachedTelemetryBatch"/> and pushes it through the supplied
/// <see cref="ISiteStreamAuditClient"/>. The bridge can be composed into the
/// existing <see cref="CachedCallLifecycleBridge"/> chain as the
/// <see cref="ICachedCallTelemetryForwarder"/> implementation so a single
/// observer callback fans out to both halves.
/// </summary>
/// <remarks>
/// <para>
/// Production wiring keeps the wire push deferred to M6 — the site SQLite hot
/// path is the source of truth and a future M6 drain will push the rows
/// through the gRPC client. For end-to-end testing today we need a way to
/// exercise the central dual-write transaction immediately, so this
/// dispatcher synthesises the wire packet inline and round-trips it through
/// the stub client. The shape mirrors what the M6 drain will eventually emit.
/// </para>
/// <para>
/// <b>Best-effort:</b> both the inner forwarder call and the wire push are
/// wrapped in independent try/catch blocks. A thrown wire client doesn't
/// abort the local writes (the audit row is already in SQLite); a thrown
/// local forwarder doesn't abort the wire push (central still gets the
/// dual-write attempt).
/// </para>
/// </remarks>
public sealed class CombinedTelemetryDispatcher : ICachedCallTelemetryForwarder
{
private readonly ICachedCallTelemetryForwarder _inner;
private readonly ISiteStreamAuditClient _wireClient;
public CombinedTelemetryDispatcher(
ICachedCallTelemetryForwarder inner,
ISiteStreamAuditClient wireClient)
{
_inner = inner ?? throw new ArgumentNullException(nameof(inner));
_wireClient = wireClient ?? throw new ArgumentNullException(nameof(wireClient));
}
/// <inheritdoc/>
public async Task ForwardAsync(CachedCallTelemetry telemetry, CancellationToken ct = default)
{
ArgumentNullException.ThrowIfNull(telemetry);
// Inner forwarder writes the audit row to SQLite + updates the
// tracking store. Best-effort — exceptions are already swallowed
// inside the production forwarder, but wrap defensively here too in
// case a test substitutes a stricter inner.
try
{
await _inner.ForwardAsync(telemetry, ct).ConfigureAwait(false);
}
catch
{
// Swallow — alog.md §7 best-effort contract.
}
// Project the same packet onto the wire and push it through the stub
// client. This is the bit a future M6 drain will subsume — until
// then the test wraps the two halves into one observer-driven step.
try
{
var batch = new CachedTelemetryBatch();
batch.Packets.Add(BuildPacket(telemetry));
await _wireClient.IngestCachedTelemetryAsync(batch, ct).ConfigureAwait(false);
}
catch
{
// Swallow — the audit row is still in SQLite for a future drain;
// the central row will materialise the next time the wire path
// is exercised (or via the M6 reconciliation pull).
}
}
private static CachedTelemetryPacket BuildPacket(CachedCallTelemetry telemetry)
{
return new CachedTelemetryPacket
{
AuditEvent = AuditEventMapper.ToDto(telemetry.Audit),
Operational = ToOperationalDto(telemetry.Operational),
};
}
private static SiteCallOperationalDto ToOperationalDto(SiteCallOperational op)
{
var dto = new SiteCallOperationalDto
{
TrackedOperationId = op.TrackedOperationId.Value.ToString("D"),
Channel = op.Channel,
Target = op.Target,
SourceSite = op.SourceSite,
Status = op.Status,
RetryCount = op.RetryCount,
LastError = op.LastError ?? string.Empty,
CreatedAtUtc = Timestamp.FromDateTime(EnsureUtc(op.CreatedAtUtc)),
UpdatedAtUtc = Timestamp.FromDateTime(EnsureUtc(op.UpdatedAtUtc)),
};
if (op.HttpStatus.HasValue)
{
dto.HttpStatus = op.HttpStatus.Value;
}
if (op.TerminalAtUtc.HasValue)
{
dto.TerminalAtUtc = Timestamp.FromDateTime(EnsureUtc(op.TerminalAtUtc.Value));
}
return dto;
}
private static DateTime EnsureUtc(DateTime value) =>
value.Kind == DateTimeKind.Utc
? value
: DateTime.SpecifyKind(value.ToUniversalTime(), DateTimeKind.Utc);
}

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tests/ScadaLink.AuditLog.Tests/Integration/Infrastructure/CombinedTelemetryHarness.cs Normal file
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using Akka.Actor;
using Microsoft.EntityFrameworkCore;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.Logging.Abstractions;
using Microsoft.Extensions.Options;
using ScadaLink.AuditLog.Central;
using ScadaLink.AuditLog.Site;
using ScadaLink.AuditLog.Site.Telemetry;
using ScadaLink.Commons.Interfaces;
using ScadaLink.Commons.Interfaces.Repositories;
using ScadaLink.Commons.Interfaces.Services;
using ScadaLink.Commons.Messages.Integration;
using ScadaLink.ConfigurationDatabase;
using ScadaLink.ConfigurationDatabase.Repositories;
using ScadaLink.ConfigurationDatabase.Tests.Migrations;
using ScadaLink.SiteRuntime.Tracking;
namespace ScadaLink.AuditLog.Tests.Integration.Infrastructure;
/// <summary>
/// Shared end-to-end harness for the M3 cached-call combined telemetry tests
/// (G2/G3/G4). Composes the full pipeline:
/// <list type="bullet">
/// <item><description>Site-local SQLite <see cref="SqliteAuditWriter"/> (in-memory) +
/// <see cref="RingBufferFallback"/> + <see cref="FallbackAuditWriter"/>.</description></item>
/// <item><description>Site-local SQLite <see cref="OperationTrackingStore"/> (in-memory).</description></item>
/// <item><description>Production <see cref="CachedCallTelemetryForwarder"/> wrapped by a
/// test-side <see cref="CombinedTelemetryDispatcher"/> that also pushes each
/// packet through the stub gRPC client.</description></item>
/// <item><description><see cref="CachedCallLifecycleBridge"/> wired to the
/// dispatcher so a single observer call fans out audit + tracking + wire.</description></item>
/// <item><description><see cref="DirectActorSiteStreamAuditClient"/> connected
/// to an <see cref="AuditLogIngestActor"/> backed by the real
/// <see cref="AuditLogRepository"/> + <see cref="SiteCallAuditRepository"/>
/// against the per-test <see cref="MsSqlMigrationFixture"/> database.</description></item>
/// </list>
/// </summary>
/// <remarks>
/// <para>
/// Disposal cleans up the in-memory SQLite stores. The Akka actor system is
/// owned by the calling <see cref="Akka.TestKit.Xunit2.TestKit"/>; the harness
/// only owns the ingest actor IActorRef and the underlying repositories'
/// DbContext lifecycle.
/// </para>
/// </remarks>
public sealed class CombinedTelemetryHarness : IAsyncDisposable
{
public SqliteAuditWriter SqliteWriter { get; }
public RingBufferFallback Ring { get; }
public FallbackAuditWriter FallbackWriter { get; }
public OperationTrackingStore TrackingStore { get; }
public CachedCallTelemetryForwarder InnerForwarder { get; }
public CombinedTelemetryDispatcher Dispatcher { get; }
public CachedCallLifecycleBridge Bridge { get; }
public DirectActorSiteStreamAuditClient StubClient { get; }
public IActorRef IngestActor { get; }
public IServiceProvider ServiceProvider { get; }
private readonly MsSqlMigrationFixture _fixture;
private bool _disposed;
public CombinedTelemetryHarness(
MsSqlMigrationFixture fixture,
Akka.TestKit.Xunit2.TestKit testKit,
Func<ScadaLinkDbContext, ISiteCallAuditRepository>? siteCallRepoOverride = null)
{
_fixture = fixture ?? throw new ArgumentNullException(nameof(fixture));
ArgumentNullException.ThrowIfNull(testKit);
// Site SQLite — unique in-memory database per harness so tests don't share
// an audit queue. Mode=Memory + Cache=Shared keeps the file alive for the
// lifetime of the writer connection.
SqliteWriter = new SqliteAuditWriter(
Options.Create(new SqliteAuditWriterOptions
{
DatabasePath = "ignored",
BatchSize = 64,
ChannelCapacity = 1024,
}),
NullLogger<SqliteAuditWriter>.Instance,
connectionStringOverride:
$"Data Source=file:cachedcall-g-{Guid.NewGuid():N}?mode=memory&cache=shared");
Ring = new RingBufferFallback();
FallbackWriter = new FallbackAuditWriter(
SqliteWriter, Ring, new NoOpAuditWriteFailureCounter(),
NullLogger<FallbackAuditWriter>.Instance);
TrackingStore = new OperationTrackingStore(
Options.Create(new OperationTrackingOptions
{
// Same shared-in-memory pattern as the audit writer.
ConnectionString =
$"Data Source=file:tracking-g-{Guid.NewGuid():N}?mode=memory&cache=shared",
}),
NullLogger<OperationTrackingStore>.Instance);
// Central wiring: real repositories backed by the MSSQL fixture's DB.
ServiceProvider = BuildCentralServiceProvider(siteCallRepoOverride);
IngestActor = testKit.Sys.ActorOf(Props.Create(() => new AuditLogIngestActor(
ServiceProvider,
NullLogger<AuditLogIngestActor>.Instance)));
StubClient = new DirectActorSiteStreamAuditClient(IngestActor);
// Production forwarder writes the local stores; the dispatcher wraps
// it to ALSO push the same packet to central via the stub client.
InnerForwarder = new CachedCallTelemetryForwarder(
FallbackWriter, TrackingStore, NullLogger<CachedCallTelemetryForwarder>.Instance);
Dispatcher = new CombinedTelemetryDispatcher(InnerForwarder, StubClient);
Bridge = new CachedCallLifecycleBridge(Dispatcher, NullLogger<CachedCallLifecycleBridge>.Instance);
}
/// <summary>
/// Convenience: emit the initial submit packet directly through the
/// dispatcher (the bridge's hooks fire only for S&amp;F retry-loop
/// attempts; submit-row emission happens at the script call site).
/// </summary>
public Task EmitSubmitAsync(CachedCallTelemetry submit, CancellationToken ct = default) =>
Dispatcher.ForwardAsync(submit, ct);
/// <summary>
/// Convenience: route a per-attempt or terminal outcome through the bridge.
/// </summary>
public Task EmitAttemptAsync(CachedCallAttemptContext context, CancellationToken ct = default) =>
Bridge.OnAttemptCompletedAsync(context, ct);
public ScadaLinkDbContext CreateReadContext()
{
var options = new DbContextOptionsBuilder<ScadaLinkDbContext>()
.UseSqlServer(_fixture.ConnectionString)
.Options;
return new ScadaLinkDbContext(options);
}
private IServiceProvider BuildCentralServiceProvider(
Func<ScadaLinkDbContext, ISiteCallAuditRepository>? siteCallRepoOverride)
{
var services = new ServiceCollection();
services.AddDbContext<ScadaLinkDbContext>(opts =>
opts.UseSqlServer(_fixture.ConnectionString)
.ConfigureWarnings(w => w.Ignore(
Microsoft.EntityFrameworkCore.Diagnostics.RelationalEventId.PendingModelChangesWarning)));
services.AddScoped<IAuditLogRepository>(sp =>
new AuditLogRepository(sp.GetRequiredService<ScadaLinkDbContext>()));
if (siteCallRepoOverride is null)
{
services.AddScoped<ISiteCallAuditRepository>(sp =>
new SiteCallAuditRepository(sp.GetRequiredService<ScadaLinkDbContext>()));
}
else
{
services.AddScoped(sp =>
siteCallRepoOverride(sp.GetRequiredService<ScadaLinkDbContext>()));
}
return services.BuildServiceProvider();
}
public async ValueTask DisposeAsync()
{
if (_disposed) return;
_disposed = true;
await SqliteWriter.DisposeAsync().ConfigureAwait(false);
await TrackingStore.DisposeAsync().ConfigureAwait(false);
if (ServiceProvider is IAsyncDisposable asyncSp)
{
await asyncSp.DisposeAsync().ConfigureAwait(false);
}
else if (ServiceProvider is IDisposable sp)
{
sp.Dispose();
}
}
}

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tests/ScadaLink.AuditLog.Tests/ScadaLink.AuditLog.Tests.csproj
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the fixture + EF migrations come along without duplicating them.
-->
<ProjectReference Include="../ScadaLink.ConfigurationDatabase.Tests/ScadaLink.ConfigurationDatabase.Tests.csproj" />
<!--
G2/G3/G4: the cached-call combined telemetry integration tests compose the
production OperationTrackingStore (site SQLite source of truth for
Tracking.Status) alongside the M2 audit writer chain, so the harness
needs a project reference to SiteRuntime where the store lives.
-->
<ProjectReference Include="../../src/ScadaLink.SiteRuntime/ScadaLink.SiteRuntime.csproj" />
</ItemGroup>
</Project>