888 lines
37 KiB
C#
888 lines
37 KiB
C#
using Microsoft.Data.Sqlite;
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using Microsoft.Extensions.Logging.Abstractions;
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using ZB.MOM.WW.ScadaBridge.Commons.Types.Enums;
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namespace ZB.MOM.WW.ScadaBridge.StoreAndForward.Tests;
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/// <summary>
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/// WP-10/12/13/14: Tests for the StoreAndForwardService retry engine and management.
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/// </summary>
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public class StoreAndForwardServiceTests : IAsyncLifetime, IDisposable
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{
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private readonly SqliteConnection _keepAlive;
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private readonly StoreAndForwardStorage _storage;
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private readonly StoreAndForwardService _service;
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private readonly StoreAndForwardOptions _options;
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private readonly List<SqliteConnection> _extraKeepAlives = new();
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public StoreAndForwardServiceTests()
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{
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var dbName = $"SvcTests_{Guid.NewGuid():N}";
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var connStr = $"Data Source={dbName};Mode=Memory;Cache=Shared";
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_keepAlive = new SqliteConnection(connStr);
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_keepAlive.Open();
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_storage = new StoreAndForwardStorage(connStr, NullLogger<StoreAndForwardStorage>.Instance);
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_options = new StoreAndForwardOptions
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{
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DefaultRetryInterval = TimeSpan.Zero,
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DefaultMaxRetries = 3,
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RetryTimerInterval = TimeSpan.FromMinutes(10)
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};
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_service = new StoreAndForwardService(
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_storage, _options, NullLogger<StoreAndForwardService>.Instance);
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}
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public async Task InitializeAsync() => await _storage.InitializeAsync();
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public Task DisposeAsync() => Task.CompletedTask;
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public void Dispose()
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{
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_keepAlive.Dispose();
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foreach (var c in _extraKeepAlives) c.Dispose();
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}
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/// <summary>
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/// Builds a fresh service over its own in-memory (shared-cache) SQLite so a test
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/// can call StartAsync without racing the shared <c>_service</c>'s timer. The
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/// keep-alive connection is tracked for disposal.
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/// </summary>
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private StoreAndForwardService CreateService(TimeSpan? retryTimerInterval = null)
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{
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var connStr = $"Data Source=DeferTests_{Guid.NewGuid():N};Mode=Memory;Cache=Shared";
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var keepAlive = new SqliteConnection(connStr);
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keepAlive.Open();
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_extraKeepAlives.Add(keepAlive);
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var storage = new StoreAndForwardStorage(connStr, NullLogger<StoreAndForwardStorage>.Instance);
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storage.InitializeAsync().GetAwaiter().GetResult();
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var options = new StoreAndForwardOptions
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{
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DefaultRetryInterval = TimeSpan.Zero,
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DefaultMaxRetries = 3,
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RetryTimerInterval = retryTimerInterval ?? TimeSpan.FromMinutes(10),
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};
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return new StoreAndForwardService(storage, options, NullLogger<StoreAndForwardService>.Instance);
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}
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// ── WP-10: Immediate delivery ──
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[Fact]
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public async Task EnqueueAsync_ImmediateDeliverySuccess_ReturnsAcceptedNotBuffered()
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{
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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_ => Task.FromResult(true));
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var result = await _service.EnqueueAsync(
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StoreAndForwardCategory.ExternalSystem, "api.example.com",
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"""{"method":"Test"}""", "Pump1");
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Assert.True(result.Accepted);
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Assert.False(result.WasBuffered);
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}
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[Fact]
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public async Task EnqueueAsync_PermanentFailure_ReturnsNotAccepted()
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{
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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_ => Task.FromResult(false));
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var result = await _service.EnqueueAsync(
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StoreAndForwardCategory.ExternalSystem, "api.example.com",
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"""{"method":"Test"}""");
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Assert.False(result.Accepted);
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Assert.False(result.WasBuffered);
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}
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[Fact]
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public async Task EnqueueAsync_TransientFailure_BuffersForRetry()
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{
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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_ => throw new HttpRequestException("Connection refused"));
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var result = await _service.EnqueueAsync(
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StoreAndForwardCategory.ExternalSystem, "api.example.com",
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"""{"method":"Test"}""", "Pump1");
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Assert.True(result.Accepted);
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Assert.True(result.WasBuffered);
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var msg = await _storage.GetMessageByIdAsync(result.MessageId);
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Assert.NotNull(msg);
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Assert.Equal(StoreAndForwardMessageStatus.Pending, msg!.Status);
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// StoreAndForward-003: RetryCount counts sweep retries only; the immediate
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// attempt is attempt 0, so a freshly buffered message has RetryCount 0.
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Assert.Equal(0, msg.RetryCount);
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}
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[Fact]
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public async Task EnqueueAsync_NoHandler_BuffersForLater()
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{
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var result = await _service.EnqueueAsync(
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StoreAndForwardCategory.Notification, "alerts@company.com",
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"""{"subject":"Alert"}""");
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Assert.True(result.Accepted);
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Assert.True(result.WasBuffered);
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}
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// ── WP-10: Retry engine ──
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[Fact]
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public async Task RetryPendingMessagesAsync_SuccessfulRetry_RemovesMessage()
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{
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int callCount = 0;
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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_ =>
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{
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callCount++;
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if (callCount == 1) throw new HttpRequestException("fail");
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return Task.FromResult(true);
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});
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var result = await _service.EnqueueAsync(
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StoreAndForwardCategory.ExternalSystem, "api", """{}""");
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Assert.True(result.WasBuffered);
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await _service.RetryPendingMessagesAsync();
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var msg = await _storage.GetMessageByIdAsync(result.MessageId);
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Assert.Null(msg);
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}
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[Fact]
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public async Task RetryPendingMessagesAsync_MaxRetriesReached_ParksMessage()
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{
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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_ => throw new HttpRequestException("always fails"));
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var result = await _service.EnqueueAsync(
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StoreAndForwardCategory.ExternalSystem, "api", """{}""",
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maxRetries: 2);
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// StoreAndForward-003: MaxRetries bounds sweep retries (not the immediate
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// attempt), so a message with MaxRetries=2 needs two retry sweeps to park.
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await _service.RetryPendingMessagesAsync();
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var afterFirst = await _storage.GetMessageByIdAsync(result.MessageId);
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Assert.Equal(StoreAndForwardMessageStatus.Pending, afterFirst!.Status);
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await _service.RetryPendingMessagesAsync();
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var msg = await _storage.GetMessageByIdAsync(result.MessageId);
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Assert.NotNull(msg);
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Assert.Equal(StoreAndForwardMessageStatus.Parked, msg!.Status);
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}
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// ── StoreAndForward-003: retry-count accounting ──
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[Fact]
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public async Task RetryPendingMessagesAsync_MaxRetriesOne_PerformsExactlyOneRetryBeforeParking()
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{
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// The immediate attempt is attempt 0; MaxRetries=1 must allow exactly one
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// retry sweep before parking. The pre-fix off-by-one parked with zero retries.
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var attempts = 0;
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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_ => { Interlocked.Increment(ref attempts); throw new HttpRequestException("always fails"); });
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var result = await _service.EnqueueAsync(
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StoreAndForwardCategory.ExternalSystem, "api", """{}""",
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maxRetries: 1);
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// After the immediate failed attempt the message is buffered, not parked.
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var buffered = await _storage.GetMessageByIdAsync(result.MessageId);
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Assert.Equal(StoreAndForwardMessageStatus.Pending, buffered!.Status);
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Assert.Equal(1, attempts); // only the immediate attempt so far
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await _service.RetryPendingMessagesAsync();
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var msg = await _storage.GetMessageByIdAsync(result.MessageId);
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Assert.Equal(StoreAndForwardMessageStatus.Parked, msg!.Status);
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Assert.Equal(2, attempts); // immediate attempt + exactly one retry
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Assert.Equal(1, msg.RetryCount); // one sweep retry recorded
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}
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// ── StoreAndForward-005: sweep-vs-management race hardening ──
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[Fact]
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public async Task RetryMessageAsync_StatusChangedDuringDelivery_SweepParkWriteIsSkipped()
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{
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// StoreAndForward-005: the retry sweep's state-changing writes must be
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// conditional on the status it observed, so a concurrent operator action that
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// moved the row out of Pending (e.g. between the sweep's snapshot load and its
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// park write) is not silently overwritten by the sweep's stale view.
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var result = await _service.EnqueueAsync(
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StoreAndForwardCategory.ExternalSystem, "api", """{}""",
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attemptImmediateDelivery: false, maxRetries: 1);
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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async msg =>
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{
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// Simulate an operator action winning the race: the row leaves Pending
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// (here: parked) while the sweep is still mid-delivery. The sweep would
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// otherwise unconditionally re-write this row from its stale snapshot.
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var parkedOutFromUnderTheSweep = new StoreAndForwardMessage
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{
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Id = msg.Id, Category = msg.Category, Target = msg.Target,
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PayloadJson = msg.PayloadJson, RetryCount = 7,
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MaxRetries = msg.MaxRetries, RetryIntervalMs = msg.RetryIntervalMs,
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CreatedAt = msg.CreatedAt, LastAttemptAt = DateTimeOffset.UtcNow,
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Status = StoreAndForwardMessageStatus.Parked,
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LastError = "operator/other writer"
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};
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await _storage.UpdateMessageAsync(parkedOutFromUnderTheSweep);
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throw new HttpRequestException("transient — sweep will try to park");
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});
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await _service.RetryPendingMessagesAsync();
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// The sweep observed Pending; the row is now Parked with the other writer's
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// RetryCount (7), not the sweep's (1). The sweep's conditional write was skipped.
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var msg = await _storage.GetMessageByIdAsync(result.MessageId);
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Assert.NotNull(msg);
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Assert.Equal(StoreAndForwardMessageStatus.Parked, msg!.Status);
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Assert.Equal(7, msg.RetryCount);
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Assert.Equal("operator/other writer", msg.LastError);
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}
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[Fact]
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public async Task RetryPendingMessagesAsync_PermanentFailureOnRetry_ParksMessage()
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{
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int callCount = 0;
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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_ =>
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{
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callCount++;
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if (callCount == 1) throw new HttpRequestException("transient");
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return Task.FromResult(false);
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});
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var result = await _service.EnqueueAsync(
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StoreAndForwardCategory.ExternalSystem, "api", """{}""");
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await _service.RetryPendingMessagesAsync();
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var msg = await _storage.GetMessageByIdAsync(result.MessageId);
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Assert.NotNull(msg);
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Assert.Equal(StoreAndForwardMessageStatus.Parked, msg!.Status);
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}
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// ── WP-12: Parked message management ──
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[Fact]
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public async Task RetryParkedMessageAsync_MovesBackToQueue()
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{
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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_ => throw new HttpRequestException("fail"));
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var result = await _service.EnqueueAsync(
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StoreAndForwardCategory.ExternalSystem, "api", """{}""",
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maxRetries: 1);
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await _service.RetryPendingMessagesAsync();
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var msg = await _storage.GetMessageByIdAsync(result.MessageId);
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Assert.Equal(StoreAndForwardMessageStatus.Parked, msg!.Status);
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var retried = await _service.RetryParkedMessageAsync(result.MessageId);
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Assert.True(retried);
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msg = await _storage.GetMessageByIdAsync(result.MessageId);
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Assert.Equal(StoreAndForwardMessageStatus.Pending, msg!.Status);
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Assert.Equal(0, msg.RetryCount);
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}
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/// <summary>
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/// StoreAndForward-017: the Retry activity-log entry must carry the parked
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/// message's true category, not a hard-coded ExternalSystem.
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/// </summary>
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[Fact]
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public async Task RetryParkedMessageAsync_ActivityUsesMessageRealCategory()
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{
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.Notification,
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_ => throw new HttpRequestException("fail"));
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var result = await _service.EnqueueAsync(
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StoreAndForwardCategory.Notification, "ops-list", """{}""",
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maxRetries: 1);
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await _service.RetryPendingMessagesAsync(); // -> parked
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var categories = new List<StoreAndForwardCategory>();
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_service.OnActivity += (action, category, _) =>
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{
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if (action == "Retry") categories.Add(category);
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};
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var retried = await _service.RetryParkedMessageAsync(result.MessageId);
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Assert.True(retried);
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Assert.Equal(new[] { StoreAndForwardCategory.Notification }, categories);
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}
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/// <summary>
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/// StoreAndForward-017: the Discard activity-log entry must carry the parked
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/// message's true category, not a hard-coded ExternalSystem.
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/// </summary>
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[Fact]
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public async Task DiscardParkedMessageAsync_ActivityUsesMessageRealCategory()
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{
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.CachedDbWrite,
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_ => throw new HttpRequestException("fail"));
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var result = await _service.EnqueueAsync(
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StoreAndForwardCategory.CachedDbWrite, "site-db", """{}""",
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maxRetries: 1);
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await _service.RetryPendingMessagesAsync(); // -> parked
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var categories = new List<StoreAndForwardCategory>();
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_service.OnActivity += (action, category, _) =>
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{
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if (action == "Discard") categories.Add(category);
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};
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var discarded = await _service.DiscardParkedMessageAsync(result.MessageId);
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Assert.True(discarded);
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Assert.Equal(new[] { StoreAndForwardCategory.CachedDbWrite }, categories);
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}
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[Fact]
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public async Task DiscardParkedMessageAsync_PermanentlyRemoves()
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{
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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_ => throw new HttpRequestException("fail"));
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var result = await _service.EnqueueAsync(
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StoreAndForwardCategory.ExternalSystem, "api", """{}""",
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maxRetries: 1);
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await _service.RetryPendingMessagesAsync();
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var discarded = await _service.DiscardParkedMessageAsync(result.MessageId);
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Assert.True(discarded);
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var msg = await _storage.GetMessageByIdAsync(result.MessageId);
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Assert.Null(msg);
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}
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[Fact]
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public async Task GetParkedMessagesAsync_ReturnsPaginatedResults()
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{
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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_ => throw new HttpRequestException("fail"));
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for (int i = 0; i < 3; i++)
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{
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await _service.EnqueueAsync(
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StoreAndForwardCategory.ExternalSystem, $"api{i}", """{}""",
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maxRetries: 1);
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}
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await _service.RetryPendingMessagesAsync();
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var (messages, total) = await _service.GetParkedMessagesAsync(
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StoreAndForwardCategory.ExternalSystem, 1, 2);
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Assert.Equal(2, messages.Count);
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Assert.True(total >= 3);
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}
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// ── WP-13: Messages survive instance deletion ──
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[Fact]
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public async Task MessagesForInstance_SurviveAfterDeletion()
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{
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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_ => throw new HttpRequestException("fail"));
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await _service.EnqueueAsync(
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StoreAndForwardCategory.ExternalSystem, "api", """{}""", "Pump1");
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await _service.EnqueueAsync(
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StoreAndForwardCategory.ExternalSystem, "api2", """{}""", "Pump1");
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var count = await _service.GetMessageCountForInstanceAsync("Pump1");
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Assert.Equal(2, count);
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}
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// ── WP-14: Health metrics ──
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[Fact]
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public async Task GetBufferDepthAsync_ReturnsCorrectDepth()
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{
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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_ => throw new HttpRequestException("fail"));
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.Notification,
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_ => throw new HttpRequestException("fail"));
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await _service.EnqueueAsync(StoreAndForwardCategory.ExternalSystem, "api1", """{}""");
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await _service.EnqueueAsync(StoreAndForwardCategory.ExternalSystem, "api2", """{}""");
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await _service.EnqueueAsync(StoreAndForwardCategory.Notification, "email", """{}""");
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var depth = await _service.GetBufferDepthAsync();
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Assert.True(depth.GetValueOrDefault(StoreAndForwardCategory.ExternalSystem) >= 2);
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Assert.True(depth.GetValueOrDefault(StoreAndForwardCategory.Notification) >= 1);
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}
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[Fact]
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public async Task OnActivity_RaisedOnEnqueue()
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{
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var activities = new List<string>();
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_service.OnActivity += (action, _, _) => activities.Add(action);
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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_ => Task.FromResult(true));
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await _service.EnqueueAsync(StoreAndForwardCategory.ExternalSystem, "api", """{}""");
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Assert.Contains("Delivered", activities);
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}
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[Fact]
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public async Task OnActivity_RaisedOnBuffer()
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{
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var activities = new List<string>();
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_service.OnActivity += (action, _, _) => activities.Add(action);
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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_ => throw new HttpRequestException("fail"));
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await _service.EnqueueAsync(StoreAndForwardCategory.ExternalSystem, "api", """{}""");
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Assert.Contains("Queued", activities);
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}
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// ── StoreAndForward-009: faulting activity subscriber must not corrupt delivery ──
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[Fact]
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public async Task EnqueueAsync_ImmediateDeliverySuccess_FaultingActivitySubscriber_StillReportsDelivered()
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{
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// StoreAndForward-009: a throwing OnActivity subscriber (e.g. the site event
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// log) must not be misclassified as a transient delivery failure. Pre-fix the
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// subscriber's exception escaped RaiseActivity, was caught by EnqueueAsync's
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// transient-failure handler, and a successfully delivered message was buffered.
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_service.OnActivity += (_, _, _) => throw new InvalidOperationException("logging blew up");
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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_ => Task.FromResult(true));
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var result = await _service.EnqueueAsync(
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StoreAndForwardCategory.ExternalSystem, "api", """{}""");
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Assert.True(result.Accepted);
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Assert.False(result.WasBuffered); // delivered, NOT buffered
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var msg = await _storage.GetMessageByIdAsync(result.MessageId);
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Assert.Null(msg); // nothing left in the buffer
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}
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[Fact]
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public async Task RetryMessageAsync_FaultingActivitySubscriber_DoesNotIncrementRetryCount()
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{
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// StoreAndForward-009: a throwing subscriber raised after a successful retry
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// delivery must not be caught by the retry-failure handler and counted as a
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// transient failure.
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var result = await _service.EnqueueAsync(
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StoreAndForwardCategory.ExternalSystem, "api", """{}""",
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attemptImmediateDelivery: false, maxRetries: 5);
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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_ => Task.FromResult(true));
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_service.OnActivity += (_, _, _) => throw new InvalidOperationException("logging blew up");
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await _service.RetryPendingMessagesAsync();
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// The retry succeeded; the message must be gone, not re-buffered with a bumped count.
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var msg = await _storage.GetMessageByIdAsync(result.MessageId);
|
|
Assert.Null(msg);
|
|
}
|
|
|
|
// ── WP-10: Per-source-entity retry settings ──
|
|
|
|
[Fact]
|
|
public async Task EnqueueAsync_CustomRetrySettings_Respected()
|
|
{
|
|
_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
|
|
_ => throw new HttpRequestException("fail"));
|
|
|
|
var result = await _service.EnqueueAsync(
|
|
StoreAndForwardCategory.ExternalSystem, "api", """{}""",
|
|
maxRetries: 100,
|
|
retryInterval: TimeSpan.FromSeconds(60));
|
|
|
|
var msg = await _storage.GetMessageByIdAsync(result.MessageId);
|
|
Assert.Equal(100, msg!.MaxRetries);
|
|
Assert.Equal(60000, msg.RetryIntervalMs);
|
|
}
|
|
|
|
// ── attemptImmediateDelivery: false — caller already attempted delivery ──
|
|
|
|
[Fact]
|
|
public async Task EnqueueAsync_AttemptImmediateDeliveryFalse_BuffersWithoutInvokingHandler()
|
|
{
|
|
// A caller that has already made its own delivery attempt passes
|
|
// attemptImmediateDelivery: false so the request is not dispatched twice.
|
|
var handlerCalls = 0;
|
|
_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
|
|
_ => { Interlocked.Increment(ref handlerCalls); return Task.FromResult(true); });
|
|
|
|
var result = await _service.EnqueueAsync(
|
|
StoreAndForwardCategory.ExternalSystem, "api", """{}""",
|
|
attemptImmediateDelivery: false);
|
|
|
|
Assert.Equal(0, handlerCalls); // handler NOT invoked at enqueue time
|
|
Assert.True(result.WasBuffered);
|
|
|
|
var msg = await _storage.GetMessageByIdAsync(result.MessageId);
|
|
Assert.NotNull(msg);
|
|
Assert.Equal(StoreAndForwardMessageStatus.Pending, msg!.Status);
|
|
// StoreAndForward-003: the caller's own attempt is attempt 0; RetryCount
|
|
// counts only sweep retries, so a freshly buffered message has RetryCount 0.
|
|
Assert.Equal(0, msg.RetryCount);
|
|
}
|
|
|
|
// ─── StoreAndForward-024: StopAsync waits for the in-flight sweep ───
|
|
|
|
/// <summary>
|
|
/// StoreAndForward-024: <see cref="StoreAndForwardService.StopAsync"/> must
|
|
/// not return until any in-flight retry sweep has completed (or the bounded
|
|
/// shutdown timeout fires). Pre-fix it disposed the timer and returned
|
|
/// immediately, leaving a mid-flight sweep touching disposed dependencies.
|
|
/// </summary>
|
|
[Fact]
|
|
public async Task StopAsync_AwaitsInFlightRetrySweep_BeforeReturning()
|
|
{
|
|
// Build a service whose timer fires almost immediately, with a handler
|
|
// that pauses in the middle of delivery so we can observe StopAsync's
|
|
// wait behaviour.
|
|
var dbName = $"StopWait_{Guid.NewGuid():N}";
|
|
var connStr = $"Data Source={dbName};Mode=Memory;Cache=Shared";
|
|
using var keepAlive = new SqliteConnection(connStr);
|
|
keepAlive.Open();
|
|
|
|
var storage = new StoreAndForwardStorage(connStr, NullLogger<StoreAndForwardStorage>.Instance);
|
|
await storage.InitializeAsync();
|
|
|
|
var options = new StoreAndForwardOptions
|
|
{
|
|
DefaultRetryInterval = TimeSpan.Zero,
|
|
DefaultMaxRetries = 3,
|
|
// Fire almost immediately so the sweep is in-flight by the time we call StopAsync.
|
|
RetryTimerInterval = TimeSpan.FromMilliseconds(20),
|
|
};
|
|
var service = new StoreAndForwardService(
|
|
storage, options, NullLogger<StoreAndForwardService>.Instance);
|
|
|
|
// Pre-seed a buffered message so the sweep has work to do, and a
|
|
// handler that blocks until we release it.
|
|
var handlerEntered = new TaskCompletionSource(TaskCreationOptions.RunContinuationsAsynchronously);
|
|
var releaseHandler = new TaskCompletionSource(TaskCreationOptions.RunContinuationsAsynchronously);
|
|
var handlerCompleted = false;
|
|
service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem, async _ =>
|
|
{
|
|
handlerEntered.TrySetResult();
|
|
await releaseHandler.Task;
|
|
handlerCompleted = true;
|
|
return true;
|
|
});
|
|
|
|
var seed = await service.EnqueueAsync(
|
|
StoreAndForwardCategory.ExternalSystem, "api", """{}""",
|
|
attemptImmediateDelivery: false);
|
|
Assert.True(seed.WasBuffered);
|
|
|
|
await service.StartAsync();
|
|
// Wait until the timer-driven sweep has called into the handler.
|
|
var entered = await Task.WhenAny(handlerEntered.Task, Task.Delay(TimeSpan.FromSeconds(2)));
|
|
Assert.Same(handlerEntered.Task, entered);
|
|
Assert.False(handlerCompleted, "Handler should still be paused inside the sweep.");
|
|
|
|
// Kick StopAsync — it must NOT return until the sweep finishes. Run the
|
|
// release on a background task so we can prove StopAsync is awaiting.
|
|
var stopTask = service.StopAsync();
|
|
Assert.False(stopTask.IsCompleted,
|
|
"StopAsync returned before the in-flight sweep was given a chance to finish.");
|
|
|
|
// Release the handler — StopAsync should now complete shortly.
|
|
releaseHandler.SetResult();
|
|
await stopTask.WaitAsync(TimeSpan.FromSeconds(5));
|
|
Assert.True(handlerCompleted,
|
|
"Sweep handler must have finished before StopAsync returned.");
|
|
}
|
|
|
|
// ── Task 3 (arch review 02, Stability #2): active-node delivery gate ──
|
|
// The standby site node applies replicated buffer operations but must never
|
|
// deliver; the sweep runs only when the gate reports the node is active.
|
|
|
|
[Fact]
|
|
public async Task RetrySweep_SkipsDelivery_WhenDeliveryGateReportsStandby()
|
|
{
|
|
var delivered = 0;
|
|
_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
|
|
_ => { delivered++; return Task.FromResult(true); });
|
|
_service.SetDeliveryGate(() => false); // standby
|
|
|
|
var result = await _service.EnqueueAsync(StoreAndForwardCategory.ExternalSystem, "target-x", "{}",
|
|
attemptImmediateDelivery: false, retryInterval: TimeSpan.Zero);
|
|
await _service.RetryPendingMessagesAsync();
|
|
|
|
Assert.Equal(0, delivered);
|
|
var row = await _service.GetMessageByIdAsync(result.MessageId);
|
|
Assert.NotNull(row);
|
|
Assert.Equal(StoreAndForwardMessageStatus.Pending, row!.Status); // row untouched
|
|
}
|
|
|
|
[Fact]
|
|
public async Task RetrySweep_ResumesDelivery_WhenGateFlipsActive()
|
|
{
|
|
var delivered = 0;
|
|
var active = false;
|
|
_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
|
|
_ => { delivered++; return Task.FromResult(true); });
|
|
_service.SetDeliveryGate(() => active);
|
|
|
|
await _service.EnqueueAsync(StoreAndForwardCategory.ExternalSystem, "target-x", "{}",
|
|
attemptImmediateDelivery: false, retryInterval: TimeSpan.Zero);
|
|
|
|
await _service.RetryPendingMessagesAsync();
|
|
Assert.Equal(0, delivered);
|
|
|
|
active = true; // failover: this node became active
|
|
await _service.RetryPendingMessagesAsync();
|
|
Assert.Equal(1, delivered);
|
|
}
|
|
|
|
[Fact]
|
|
public async Task RetrySweep_TreatsThrowingGateAsStandby()
|
|
{
|
|
var delivered = 0;
|
|
_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
|
|
_ => { delivered++; return Task.FromResult(true); });
|
|
_service.SetDeliveryGate(() => throw new InvalidOperationException("cluster not ready"));
|
|
|
|
await _service.EnqueueAsync(StoreAndForwardCategory.ExternalSystem, "t", "{}",
|
|
attemptImmediateDelivery: false, retryInterval: TimeSpan.Zero);
|
|
await _service.RetryPendingMessagesAsync(); // must not throw
|
|
Assert.Equal(0, delivered);
|
|
}
|
|
|
|
// ── Task 8 (arch review 02, Performance): per-target short-circuit ──
|
|
// After the first transient failure to a (category, target) the remaining
|
|
// messages for that pair are skipped this sweep — N dead-target messages
|
|
// cost one timeout, not N. Skipped rows keep their RetryCount.
|
|
|
|
[Fact]
|
|
public async Task RetrySweep_ShortCircuitsTarget_AfterFirstTransientFailure()
|
|
{
|
|
var attemptsByTarget = new Dictionary<string, int>();
|
|
_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem, msg =>
|
|
{
|
|
attemptsByTarget[msg.Target] = attemptsByTarget.GetValueOrDefault(msg.Target) + 1;
|
|
if (msg.Target == "dead-target") throw new TimeoutException("down");
|
|
return Task.FromResult(true);
|
|
});
|
|
|
|
for (var i = 0; i < 3; i++)
|
|
await _service.EnqueueAsync(StoreAndForwardCategory.ExternalSystem, "dead-target", "{}",
|
|
attemptImmediateDelivery: false, retryInterval: TimeSpan.Zero);
|
|
await _service.EnqueueAsync(StoreAndForwardCategory.ExternalSystem, "healthy-target", "{}",
|
|
attemptImmediateDelivery: false, retryInterval: TimeSpan.Zero);
|
|
|
|
await _service.RetryPendingMessagesAsync();
|
|
|
|
Assert.Equal(1, attemptsByTarget["dead-target"]); // pre-fix: 3
|
|
Assert.Equal(1, attemptsByTarget["healthy-target"]); // healthy lane unaffected
|
|
}
|
|
|
|
[Fact]
|
|
public async Task RetrySweep_SkippedMessages_DoNotAccrueRetryCount()
|
|
{
|
|
_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
|
|
_ => throw new TimeoutException("down"));
|
|
var id1 = (await _service.EnqueueAsync(StoreAndForwardCategory.ExternalSystem, "dead", "{}",
|
|
maxRetries: 5, attemptImmediateDelivery: false, retryInterval: TimeSpan.Zero)).MessageId;
|
|
var id2 = (await _service.EnqueueAsync(StoreAndForwardCategory.ExternalSystem, "dead", "{}",
|
|
maxRetries: 5, attemptImmediateDelivery: false, retryInterval: TimeSpan.Zero)).MessageId;
|
|
|
|
await _service.RetryPendingMessagesAsync();
|
|
|
|
var r1 = (await _service.GetMessageByIdAsync(id1))!.RetryCount;
|
|
var r2 = (await _service.GetMessageByIdAsync(id2))!.RetryCount;
|
|
// Exactly one was attempted (RetryCount 1); the other was skipped by the
|
|
// short-circuit, its RetryCount untouched (0). Order-independent so the
|
|
// assertion doesn't depend on created_at tie-breaking.
|
|
Assert.Equal(new[] { 0, 1 }, new[] { r1, r2 }.OrderBy(x => x).ToArray());
|
|
}
|
|
|
|
// ── Task 9 (arch review 02, Performance): parallel per-target lanes ──
|
|
// A slow/dead target no longer serializes the whole sweep; delivery within a
|
|
// single (category, target) lane stays sequential (per-target FIFO).
|
|
|
|
[Fact]
|
|
public async Task RetrySweep_SlowTarget_DoesNotBlockOtherTargets()
|
|
{
|
|
var slowGate = new TaskCompletionSource();
|
|
var healthyDelivered = new TaskCompletionSource();
|
|
_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem, async msg =>
|
|
{
|
|
if (msg.Target == "slow") { await slowGate.Task; return true; }
|
|
healthyDelivered.TrySetResult();
|
|
return true;
|
|
});
|
|
await _service.EnqueueAsync(StoreAndForwardCategory.ExternalSystem, "slow", "{}",
|
|
attemptImmediateDelivery: false, retryInterval: TimeSpan.Zero);
|
|
await _service.EnqueueAsync(StoreAndForwardCategory.ExternalSystem, "healthy", "{}",
|
|
attemptImmediateDelivery: false, retryInterval: TimeSpan.Zero);
|
|
|
|
var sweep = _service.RetryPendingMessagesAsync();
|
|
// Healthy lane completes while the slow lane is still blocked — pre-fix this
|
|
// times out because delivery is strictly serial across targets.
|
|
await healthyDelivered.Task.WaitAsync(TimeSpan.FromSeconds(5));
|
|
slowGate.SetResult();
|
|
await sweep;
|
|
}
|
|
|
|
[Fact]
|
|
public async Task RetrySweep_WithinTargetLane_StaysSequential()
|
|
{
|
|
var concurrent = 0;
|
|
var maxConcurrent = 0;
|
|
var delivered = 0;
|
|
_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem, async _ =>
|
|
{
|
|
var c = Interlocked.Increment(ref concurrent);
|
|
InterlockedMax(ref maxConcurrent, c);
|
|
await Task.Delay(20);
|
|
Interlocked.Decrement(ref concurrent);
|
|
Interlocked.Increment(ref delivered);
|
|
return true;
|
|
});
|
|
for (var i = 0; i < 4; i++)
|
|
await _service.EnqueueAsync(StoreAndForwardCategory.ExternalSystem, "same-target", "{}",
|
|
attemptImmediateDelivery: false, retryInterval: TimeSpan.Zero, messageId: $"m{i}");
|
|
|
|
await _service.RetryPendingMessagesAsync();
|
|
|
|
Assert.Equal(4, delivered);
|
|
Assert.Equal(1, maxConcurrent); // one (category,target) lane: strictly sequential
|
|
}
|
|
|
|
private static void InterlockedMax(ref int target, int value)
|
|
{
|
|
int current;
|
|
do { current = Volatile.Read(ref target); if (value <= current) return; }
|
|
while (Interlocked.CompareExchange(ref target, value, current) != current);
|
|
}
|
|
|
|
// ── Task 12: deferToSweep enqueue mode ──
|
|
|
|
/// <summary>
|
|
/// <c>deferToSweep: true</c> must NOT invoke the delivery handler inline (the
|
|
/// caller is on a latency-sensitive thread), and the buffered row must be due on
|
|
/// the very next sweep — <c>LastAttemptAt</c> stays null so it is not held back by
|
|
/// RetryInterval.
|
|
/// </summary>
|
|
[Fact]
|
|
public async Task Enqueue_DeferToSweep_DoesNotInvokeHandlerInline_AndRowIsDueImmediately()
|
|
{
|
|
var service = CreateService();
|
|
var inlineInvoked = false;
|
|
service.RegisterDeliveryHandler(StoreAndForwardCategory.Notification,
|
|
_ => { inlineInvoked = true; return Task.FromResult(true); });
|
|
|
|
var result = await service.EnqueueAsync(StoreAndForwardCategory.Notification, "ops", "{}",
|
|
deferToSweep: true, messageId: "n1");
|
|
|
|
Assert.False(inlineInvoked);
|
|
Assert.True(result.WasBuffered);
|
|
var row = await service.GetMessageByIdAsync("n1");
|
|
Assert.Null(row!.LastAttemptAt); // due on the very next sweep, not after RetryInterval
|
|
}
|
|
|
|
/// <summary>
|
|
/// After StartAsync, <c>deferToSweep</c> must kick an immediate background sweep so
|
|
/// healthy-path latency is milliseconds, not one timer interval — proven with a
|
|
/// timer set to an hour so only the kicked sweep can deliver.
|
|
/// </summary>
|
|
[Fact]
|
|
public async Task Enqueue_DeferToSweep_AfterStart_KicksAnImmediateSweep()
|
|
{
|
|
var service = CreateService(retryTimerInterval: TimeSpan.FromHours(1)); // timer will never fire in-test
|
|
var delivered = new TaskCompletionSource();
|
|
service.RegisterDeliveryHandler(StoreAndForwardCategory.Notification,
|
|
_ => { delivered.TrySetResult(); return Task.FromResult(true); });
|
|
await service.StartAsync();
|
|
try
|
|
{
|
|
await service.EnqueueAsync(StoreAndForwardCategory.Notification, "ops", "{}", deferToSweep: true);
|
|
await delivered.Task.WaitAsync(TimeSpan.FromSeconds(5)); // pre-fix: times out
|
|
}
|
|
finally { await service.StopAsync(); }
|
|
}
|
|
|
|
// ── R2 T8: _sweepTask clobber (N3) ──
|
|
|
|
[Fact]
|
|
public async Task TriggerSweep_WhileSweepInFlight_DoesNotClobberTheDrainHandle()
|
|
{
|
|
var service = CreateService(retryTimerInterval: TimeSpan.FromHours(1));
|
|
var entered = new TaskCompletionSource(TaskCreationOptions.RunContinuationsAsynchronously);
|
|
var release = new TaskCompletionSource(TaskCreationOptions.RunContinuationsAsynchronously);
|
|
service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem, async _ =>
|
|
{
|
|
entered.TrySetResult();
|
|
await release.Task;
|
|
return true;
|
|
});
|
|
await service.StartAsync();
|
|
try
|
|
{
|
|
await service.EnqueueAsync(StoreAndForwardCategory.ExternalSystem, "t", "{}",
|
|
attemptImmediateDelivery: false, retryInterval: TimeSpan.Zero);
|
|
|
|
service.TriggerSweep(); // real sweep, blocked in the handler
|
|
await entered.Task.WaitAsync(TimeSpan.FromSeconds(5));
|
|
service.TriggerSweep(); // redundant kick — pre-fix clobbers _sweepTask
|
|
|
|
var handle = service.CurrentSweepTaskForTest;
|
|
Assert.NotNull(handle);
|
|
Assert.False(handle!.IsCompleted); // pre-fix: true (a completed no-op replaced the real sweep)
|
|
}
|
|
finally
|
|
{
|
|
release.TrySetResult();
|
|
await service.StopAsync();
|
|
}
|
|
}
|
|
|
|
[Fact]
|
|
public async Task StopAsync_WaitsForTheRealInFlightSweep_EvenAfterARedundantTrigger()
|
|
{
|
|
var service = CreateService(retryTimerInterval: TimeSpan.FromHours(1));
|
|
var entered = new TaskCompletionSource(TaskCreationOptions.RunContinuationsAsynchronously);
|
|
var release = new TaskCompletionSource(TaskCreationOptions.RunContinuationsAsynchronously);
|
|
service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem, async _ =>
|
|
{
|
|
entered.TrySetResult();
|
|
await release.Task;
|
|
return true;
|
|
});
|
|
await service.StartAsync();
|
|
await service.EnqueueAsync(StoreAndForwardCategory.ExternalSystem, "t", "{}",
|
|
attemptImmediateDelivery: false, retryInterval: TimeSpan.Zero);
|
|
|
|
service.TriggerSweep();
|
|
await entered.Task.WaitAsync(TimeSpan.FromSeconds(5));
|
|
service.TriggerSweep(); // the clobbering kick
|
|
|
|
var stop = service.StopAsync();
|
|
await Task.Delay(300);
|
|
Assert.False(stop.IsCompleted); // pre-fix: StopAsync already returned (awaited the no-op)
|
|
|
|
release.TrySetResult();
|
|
await stop.WaitAsync(TimeSpan.FromSeconds(5)); // drains the real sweep promptly once released
|
|
}
|
|
}
|