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ClaudeDo/tests/ClaudeDo.Worker.Tests/Queue/QueuePickerTests.cs
Mika Kuns dc3fc443b4 refactor(data): retire legacy TaskStatus values and backfill existing rows 
Slice 6 of the worker state and queue consolidation refactor.

* Drop Manual, Planning, Planned, Draft, Waiting from the TaskStatus enum
  and from the EF value converter; only the lifecycle values remain
  (Idle, Queued, Running, Done, Failed, Cancelled).
* Add migration RetireLegacyTaskStatus that rewrites existing rows:
  manual/draft -> idle, planning -> idle+planning_phase=active,
  planned -> idle+planning_phase=finalized, waiting -> queued+blocked_by
  derived from sort_order via a CTE with LAG().
* Reroute every call site that compared/set legacy values to the new
  three-field model (Status + PlanningPhase + BlockedByTaskId), including
  the planning repo helpers, MCP services, the planning chain coordinator,
  and the UI view-models. TaskRowViewModel now exposes PlanningPhase to
  drive the planning badge.
* Refresh Worker/CLAUDE.md and Data/CLAUDE.md, the docs/plan.md status
  section, and the planning verification notes in docs/open.md.
2026-04-27 15:28:55 +02:00

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C#
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using ClaudeDo.Data;
using ClaudeDo.Data.Models;
using ClaudeDo.Data.Repositories;
using ClaudeDo.Worker.Queue;
using ClaudeDo.Worker.Tests.Infrastructure;
using TaskStatus = ClaudeDo.Data.Models.TaskStatus;
namespace ClaudeDo.Worker.Tests.Queue;
public sealed class QueuePickerTests : IDisposable
{
private readonly DbFixture _db = new();
private readonly ClaudeDoDbContext _ctx;
private readonly TaskRepository _tasks;
private readonly ListRepository _lists;
private readonly TagRepository _tags;
private readonly QueuePicker _picker;
public QueuePickerTests()
{
_ctx = _db.CreateContext();
_tasks = new TaskRepository(_ctx);
_lists = new ListRepository(_ctx);
_tags = new TagRepository(_ctx);
_picker = new QueuePicker(_db.CreateFactory());
}
public void Dispose()
{
_ctx.Dispose();
_db.Dispose();
}
private async Task<string> CreateListAsync(bool listAgentTag = false)
{
var listId = Guid.NewGuid().ToString();
await _lists.AddAsync(new ListEntity
{
Id = listId,
Name = "Test",
CreatedAt = DateTime.UtcNow,
});
if (listAgentTag)
{
var tagId = await _tags.GetOrCreateAsync("agent");
await _lists.AddTagAsync(listId, tagId);
}
return listId;
}
private async Task<TaskEntity> SeedAsync(
string listId,
TaskStatus status = TaskStatus.Queued,
DateTime? createdAt = null,
DateTime? scheduledFor = null,
string? blockedBy = null,
bool taskAgentTag = false,
int? sortOrder = null)
{
var task = new TaskEntity
{
Id = Guid.NewGuid().ToString(),
ListId = listId,
Title = "T",
Status = status,
CreatedAt = createdAt ?? DateTime.UtcNow,
ScheduledFor = scheduledFor,
BlockedByTaskId = blockedBy,
CommitType = "feat",
};
await _tasks.AddAsync(task);
if (taskAgentTag)
{
var tagId = await _tags.GetOrCreateAsync("agent");
await _tasks.AddTagAsync(task.Id, tagId);
}
if (sortOrder is not null)
{
task.SortOrder = sortOrder.Value;
await _tasks.UpdateAsync(task);
}
return task;
}
[Fact]
public async Task ClaimNextAsync_Skips_TasksWithBlockedByTaskId()
{
var listId = await CreateListAsync(listAgentTag: true);
var blocker = await SeedAsync(listId);
await SeedAsync(listId, blockedBy: blocker.Id);
// Only `blocker` is unblocked → it should be claimed; the second pick is null.
var first = await _picker.ClaimNextAsync(DateTime.UtcNow, CancellationToken.None);
Assert.NotNull(first);
Assert.Equal(blocker.Id, first!.Id);
var second = await _picker.ClaimNextAsync(DateTime.UtcNow, CancellationToken.None);
Assert.Null(second);
}
[Fact]
public async Task ClaimNextAsync_Skips_TasksWithoutAgentTag()
{
var listId = await CreateListAsync(listAgentTag: false);
await SeedAsync(listId);
var picked = await _picker.ClaimNextAsync(DateTime.UtcNow, CancellationToken.None);
Assert.Null(picked);
}
[Fact]
public async Task ClaimNextAsync_Skips_FutureScheduledFor()
{
var listId = await CreateListAsync(listAgentTag: true);
await SeedAsync(listId, scheduledFor: DateTime.UtcNow.AddHours(1));
var picked = await _picker.ClaimNextAsync(DateTime.UtcNow, CancellationToken.None);
Assert.Null(picked);
}
[Fact]
public async Task ClaimNextAsync_Skips_NonQueuedStatuses()
{
var listId = await CreateListAsync(listAgentTag: true);
await SeedAsync(listId, status: TaskStatus.Idle);
await SeedAsync(listId, status: TaskStatus.Running);
await SeedAsync(listId, status: TaskStatus.Done);
await SeedAsync(listId, status: TaskStatus.Failed);
await SeedAsync(listId, status: TaskStatus.Cancelled);
var picked = await _picker.ClaimNextAsync(DateTime.UtcNow, CancellationToken.None);
Assert.Null(picked);
}
[Fact]
public async Task ClaimNextAsync_Picks_ByUserSortOrder_ThenCreatedAt()
{
var listId = await CreateListAsync(listAgentTag: true);
// Created in order first, second; reorder so second is sort-order 0.
var first = await SeedAsync(listId, createdAt: DateTime.UtcNow.AddMinutes(-10));
var second = await SeedAsync(listId, createdAt: DateTime.UtcNow);
await _tasks.ReorderAsync(listId, new[] { second.Id, first.Id });
var picked = await _picker.ClaimNextAsync(DateTime.UtcNow, CancellationToken.None);
Assert.NotNull(picked);
Assert.Equal(second.Id, picked!.Id);
}
[Fact]
public async Task ClaimNextAsync_FlipsToRunning_WithStartedAt()
{
var listId = await CreateListAsync(listAgentTag: true);
var task = await SeedAsync(listId);
var before = DateTime.UtcNow;
var picked = await _picker.ClaimNextAsync(before, CancellationToken.None);
Assert.NotNull(picked);
var loaded = await _tasks.GetByIdAsync(task.Id);
Assert.Equal(TaskStatus.Running, loaded!.Status);
Assert.NotNull(loaded.StartedAt);
}
[Fact]
public async Task ClaimNextAsync_TwoParallelPickers_OnlyOneClaimsRow()
{
var listId = await CreateListAsync(listAgentTag: true);
await SeedAsync(listId);
// Two pickers, same DB factory, racing each other.
var picker1 = new QueuePicker(_db.CreateFactory());
var picker2 = new QueuePicker(_db.CreateFactory());
var t1 = Task.Run(() => picker1.ClaimNextAsync(DateTime.UtcNow, CancellationToken.None));
var t2 = Task.Run(() => picker2.ClaimNextAsync(DateTime.UtcNow, CancellationToken.None));
var results = await Task.WhenAll(t1, t2);
var nonNull = results.Where(r => r is not null).ToList();
Assert.Single(nonNull);
}
}
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