264 lines
11 KiB
C#
264 lines
11 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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/// StoreAndForward-001: the active node must forward every buffer operation
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/// (add / remove / park) to the standby via the ReplicationService, so a
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/// failover does not lose the buffer.
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/// </summary>
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public class StoreAndForwardReplicationTests : 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 List<ReplicationOperation> _replicated = new();
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public StoreAndForwardReplicationTests()
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{
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var connStr = $"Data Source=ReplTests_{Guid.NewGuid():N};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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var options = new StoreAndForwardOptions
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{
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DefaultRetryInterval = TimeSpan.Zero,
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DefaultMaxRetries = 1,
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RetryTimerInterval = TimeSpan.FromMinutes(10),
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ReplicationEnabled = true,
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};
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var replication = new ReplicationService(options, NullLogger<ReplicationService>.Instance);
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replication.SetReplicationHandler(op =>
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{
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lock (_replicated) _replicated.Add(op);
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return Task.CompletedTask;
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});
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_service = new StoreAndForwardService(
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_storage, options, NullLogger<StoreAndForwardService>.Instance, replication);
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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() => _keepAlive.Dispose();
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/// <summary>Replication is fire-and-forget (Task.Run); poll until the expected ops arrive.</summary>
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private async Task<List<ReplicationOperation>> WaitForReplicationAsync(int count)
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{
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for (var i = 0; i < 100; i++)
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{
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lock (_replicated)
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if (_replicated.Count >= count) return _replicated.ToList();
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await Task.Delay(20);
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}
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lock (_replicated) return _replicated.ToList();
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}
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[Fact]
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public async Task BufferingAMessage_ReplicatesAnAddOperation()
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{
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// No handler registered → message is buffered → an Add is replicated.
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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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var ops = await WaitForReplicationAsync(1);
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Assert.Contains(ops, o =>
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o.OperationType == ReplicationOperationType.Add && o.MessageId == result.MessageId);
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}
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[Fact]
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public async Task SuccessfulRetry_ReplicatesARemoveOperation()
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{
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var calls = 0;
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_service.RegisterDeliveryHandler(StoreAndForwardCategory.ExternalSystem,
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_ => ++calls == 1
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? throw new HttpRequestException("transient")
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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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await _service.RetryPendingMessagesAsync();
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var ops = await WaitForReplicationAsync(2);
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Assert.Contains(ops, o => o.OperationType == ReplicationOperationType.Add);
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Assert.Contains(ops, o =>
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o.OperationType == ReplicationOperationType.Remove && o.MessageId == result.MessageId);
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}
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[Fact]
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public async Task ParkedMessage_ReplicatesAParkOperation()
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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", """{}""", maxRetries: 1);
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await _service.RetryPendingMessagesAsync();
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var ops = await WaitForReplicationAsync(2);
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Assert.Contains(ops, o =>
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o.OperationType == ReplicationOperationType.Park && o.MessageId == result.MessageId);
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}
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/// <summary>
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/// StoreAndForward-016: an operator discarding a parked message must replicate
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/// a Remove so the standby's copy is also deleted (otherwise the discarded
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/// message reappears in the parked list after a failover).
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/// </summary>
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[Fact]
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public async Task DiscardingAParkedMessage_ReplicatesARemoveOperation()
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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", """{}""", maxRetries: 1);
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await _service.RetryPendingMessagesAsync(); // -> parked
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await WaitForReplicationAsync(2);
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var discarded = await _service.DiscardParkedMessageAsync(result.MessageId);
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Assert.True(discarded);
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var ops = await WaitForReplicationAsync(3);
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Assert.Contains(ops, o =>
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o.OperationType == ReplicationOperationType.Remove && o.MessageId == result.MessageId);
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}
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/// <summary>
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/// StoreAndForward-016: an operator retrying a parked message must replicate a
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/// Requeue so the standby's copy moves back to Pending (otherwise it stays
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/// Parked on the standby and the operator's retry is lost across a failover).
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/// </summary>
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[Fact]
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public async Task RetryingAParkedMessage_ReplicatesARequeueOperation()
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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", """{}""", maxRetries: 1);
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await _service.RetryPendingMessagesAsync(); // -> parked
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await WaitForReplicationAsync(2);
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var retried = await _service.RetryParkedMessageAsync(result.MessageId);
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Assert.True(retried);
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var ops = await WaitForReplicationAsync(3);
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var requeue = ops.SingleOrDefault(o =>
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o.OperationType == ReplicationOperationType.Requeue && o.MessageId == result.MessageId);
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Assert.NotNull(requeue);
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Assert.NotNull(requeue!.Message);
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Assert.Equal(StoreAndForwardMessageStatus.Pending, requeue.Message!.Status);
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}
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/// <summary>
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/// StoreAndForward-016: the standby applies a Requeue by moving its row back to
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/// Pending with retry_count = 0, mirroring the active node's local state.
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/// </summary>
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[Fact]
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public async Task ApplyReplicatedOperation_Requeue_MovesStandbyRowBackToPending()
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{
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var replication = new ReplicationService(
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new StoreAndForwardOptions { ReplicationEnabled = true },
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NullLogger<ReplicationService>.Instance);
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var parked = new StoreAndForwardMessage
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{
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Id = "requeue1",
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Category = StoreAndForwardCategory.ExternalSystem,
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Target = "api",
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PayloadJson = "{}",
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RetryCount = 5,
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MaxRetries = 1,
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RetryIntervalMs = 0,
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CreatedAt = DateTimeOffset.UtcNow,
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Status = StoreAndForwardMessageStatus.Parked,
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};
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await _storage.EnqueueAsync(parked);
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var requeued = new StoreAndForwardMessage
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{
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Id = parked.Id,
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Category = parked.Category,
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Target = parked.Target,
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PayloadJson = parked.PayloadJson,
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RetryCount = 0,
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MaxRetries = parked.MaxRetries,
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RetryIntervalMs = parked.RetryIntervalMs,
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CreatedAt = parked.CreatedAt,
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Status = StoreAndForwardMessageStatus.Pending,
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};
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await replication.ApplyReplicatedOperationAsync(
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new ReplicationOperation(ReplicationOperationType.Requeue, parked.Id, requeued),
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_storage);
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var row = await _storage.GetMessageByIdAsync(parked.Id);
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Assert.NotNull(row);
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Assert.Equal(StoreAndForwardMessageStatus.Pending, row!.Status);
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Assert.Equal(0, row.RetryCount);
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}
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private static ReplicationService NewReplicationService() =>
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new(new StoreAndForwardOptions { ReplicationEnabled = true },
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NullLogger<ReplicationService>.Instance);
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private static StoreAndForwardMessage NewMessage(string id) => new()
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{
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Id = id,
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Category = StoreAndForwardCategory.ExternalSystem,
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Target = "api",
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PayloadJson = "{}",
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RetryCount = 0,
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MaxRetries = 1,
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RetryIntervalMs = 0,
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CreatedAt = DateTimeOffset.UtcNow,
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Status = StoreAndForwardMessageStatus.Pending,
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};
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/// <summary>
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/// A Park (or Requeue) whose original Add was lost — e.g. the Add's
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/// fire-and-forget replication dropped — must still materialise the row on the
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/// standby. The full message rides in the operation, so an upsert self-heals;
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/// a blind UPDATE would affect 0 rows and the row would be gone forever.
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/// </summary>
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[Fact]
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public async Task ApplyReplicatedPark_WhenAddWasLost_MaterializesTheParkedRow()
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{
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var service = NewReplicationService();
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var msg = NewMessage("lost-add-1"); // never Added on this (standby) storage
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msg.Status = StoreAndForwardMessageStatus.Parked;
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await service.ApplyReplicatedOperationAsync(
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new ReplicationOperation(ReplicationOperationType.Park, msg.Id, msg), _storage);
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var row = await _storage.GetMessageByIdAsync("lost-add-1");
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Assert.NotNull(row); // pre-fix: blind UPDATE affected 0 rows, row is gone forever
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Assert.Equal(StoreAndForwardMessageStatus.Parked, row!.Status);
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}
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/// <summary>
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/// A duplicate Add (e.g. after Task 21's anti-entropy resync re-issues an Add
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/// the standby already holds) must not violate the PK — the upsert applies
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/// newest-wins instead of throwing.
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/// </summary>
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[Fact]
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public async Task ApplyReplicatedAdd_Twice_IsIdempotent_NewestWins()
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{
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var service = NewReplicationService();
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var msg = NewMessage("dup-add");
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await service.ApplyReplicatedOperationAsync(
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new ReplicationOperation(ReplicationOperationType.Add, msg.Id, msg), _storage);
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msg.RetryCount = 3;
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await service.ApplyReplicatedOperationAsync( // pre-fix: SqliteException PK violation
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new ReplicationOperation(ReplicationOperationType.Add, msg.Id, msg), _storage);
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Assert.Equal(3, (await _storage.GetMessageByIdAsync("dup-add"))!.RetryCount);
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}
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}
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