1c94fbdb14
Add seven best-effort batch variants of the single-entity external MCP tools: batch_get_tasks, batch_add_tasks, batch_update_task_status, batch_cancel_tasks, batch_delete_tasks, batch_set_my_day, and batch_cleanup_task_worktrees. Each loops the existing ExternalMcpService methods sequentially (scoped DbContext is not thread-safe), returns a per-item result array so a failing item never aborts the rest, and rejects empty or over-100-item batches. Merge/review stay single-task.
205 lines
7.5 KiB
C#
205 lines
7.5 KiB
C#
using ClaudeDo.Data;
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using ClaudeDo.Data.Git;
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using ClaudeDo.Data.Models;
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using ClaudeDo.Data.Repositories;
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using ClaudeDo.Worker.Config;
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using ClaudeDo.Worker.External;
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using ClaudeDo.Worker.Hub;
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using ClaudeDo.Worker.Lifecycle;
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using ClaudeDo.Worker.Queue;
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using ClaudeDo.Worker.Runner;
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using ClaudeDo.Worker.Tests.Infrastructure;
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using ClaudeDo.Worker.Worktrees;
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using Microsoft.Extensions.Logging.Abstractions;
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using TaskStatus = ClaudeDo.Data.Models.TaskStatus;
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namespace ClaudeDo.Worker.Tests.External;
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public sealed class BatchMcpToolsTests : IDisposable
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{
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private readonly DbFixture _db = new();
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private readonly ClaudeDoDbContext _ctx;
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private readonly TaskRepository _tasks;
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private readonly ListRepository _lists;
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private readonly HubBroadcaster _broadcaster;
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public BatchMcpToolsTests()
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{
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_ctx = _db.CreateContext();
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_tasks = new TaskRepository(_ctx);
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_lists = new ListRepository(_ctx);
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_broadcaster = new HubBroadcaster(new CapturingHubContext());
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}
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public void Dispose()
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{
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_ctx.Dispose();
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_db.Dispose();
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}
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private async Task<string> SeedListAsync()
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{
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var id = Guid.NewGuid().ToString();
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await _lists.AddAsync(new ListEntity { Id = id, Name = "L", CreatedAt = DateTime.UtcNow });
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return id;
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}
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private async Task<TaskEntity> SeedTaskAsync(string listId, string title = "t", TaskStatus status = TaskStatus.Idle)
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{
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var task = new TaskEntity
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{
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Id = Guid.NewGuid().ToString(),
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ListId = listId,
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Title = title,
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Status = status,
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CreatedAt = DateTime.UtcNow,
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CommitType = "chore",
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};
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await _tasks.AddAsync(task);
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return task;
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}
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private BatchMcpTools BuildSut()
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{
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var git = new GitService();
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var factory = _db.CreateFactory();
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var maintenance = new WorktreeMaintenanceService(factory, git, NullLogger<WorktreeMaintenanceService>.Instance);
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var merge = new TaskMergeService(factory, git, _broadcaster, TaskStateServiceBuilder.Build(factory).State, NullLogger<TaskMergeService>.Instance);
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var svc = new ExternalMcpService(
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_tasks, _lists, CreateQueue(), _broadcaster,
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TaskStateServiceBuilder.Build(factory).State,
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git, factory, maintenance, merge);
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return new BatchMcpTools(svc);
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}
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private QueueService CreateQueue()
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{
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var tempDir = Path.Combine(Path.GetTempPath(), $"claudedo_batch_{Guid.NewGuid():N}");
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Directory.CreateDirectory(tempDir);
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var cfg = new WorkerConfig
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{
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SandboxRoot = Path.Combine(tempDir, "sandbox"),
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LogRoot = Path.Combine(tempDir, "logs"),
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QueueBackstopIntervalMs = 50,
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};
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var dbFactory = _db.CreateFactory();
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var broadcaster = new HubBroadcaster(new CapturingHubContext());
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var wtManager = new WorktreeManager(new GitService(), dbFactory, cfg, NullLogger<WorktreeManager>.Instance);
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var state = TaskStateServiceBuilder.Build(dbFactory).State;
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var runner = new TaskRunner(new FakeClaudeProcess(), dbFactory, broadcaster, wtManager, new ClaudeArgsBuilder(), cfg,
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NullLogger<TaskRunner>.Instance, state, new TaskRunTokenRegistry(), new AttachmentStore());
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var overrideSlot = new OverrideSlotService(dbFactory, runner, NullLogger<OverrideSlotService>.Instance);
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return new QueueService(dbFactory, runner, cfg, NullLogger<QueueService>.Instance,
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new QueueWaker(), new QueuePicker(dbFactory), overrideSlot, state);
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}
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[Fact]
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public async Task BatchAddTasks_CreatesAll_AndReportsOkPerItem()
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{
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var listId = await SeedListAsync();
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var sut = BuildSut();
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var results = await sut.BatchAddTasks(listId, new[]
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{
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new BatchAddTaskInput("a"),
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new BatchAddTaskInput("b"),
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new BatchAddTaskInput("c"),
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}, cancellationToken: CancellationToken.None);
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Assert.Equal(3, results.Count);
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Assert.All(results, r => Assert.True(r.Ok));
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Assert.Equal(new[] { 0, 1, 2 }, results.Select(r => r.Index).ToArray());
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var inList = await _tasks.GetByListIdAsync(listId);
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Assert.Equal(3, inList.Count);
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}
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[Fact]
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public async Task BatchAddTasks_FailingItem_DoesNotAbortTheRest()
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{
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var listId = await SeedListAsync();
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var sut = BuildSut();
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var results = await sut.BatchAddTasks(listId, new[]
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{
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new BatchAddTaskInput("ok-1"),
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new BatchAddTaskInput(" "), // blank title → AddTask throws
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new BatchAddTaskInput("ok-2"),
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}, cancellationToken: CancellationToken.None);
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Assert.True(results[0].Ok);
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Assert.False(results[1].Ok);
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Assert.NotNull(results[1].Error);
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Assert.True(results[2].Ok);
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var inList = await _tasks.GetByListIdAsync(listId);
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Assert.Equal(2, inList.Count);
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}
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[Fact]
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public async Task BatchGetTasks_MissingId_IsFoundFalseNotError()
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{
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var listId = await SeedListAsync();
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var task = await SeedTaskAsync(listId);
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var sut = BuildSut();
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var results = await sut.BatchGetTasks(new[] { task.Id, "nope" }, CancellationToken.None);
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var found = results.Single(r => r.Id == task.Id);
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var missing = results.Single(r => r.Id == "nope");
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Assert.True(found.Found);
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Assert.NotNull(found.Task);
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Assert.False(missing.Found);
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Assert.Null(missing.Task);
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Assert.Null(missing.Error);
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}
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[Fact]
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public async Task BatchDeleteTasks_RunningTask_ReportedNotOk_OthersDeleted()
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{
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var listId = await SeedListAsync();
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var deletable = await SeedTaskAsync(listId, "del", TaskStatus.Idle);
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var running = await SeedTaskAsync(listId, "run", TaskStatus.Running);
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var sut = BuildSut();
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var results = await sut.BatchDeleteTasks(new[] { deletable.Id, running.Id }, CancellationToken.None);
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Assert.True(results.Single(r => r.TaskId == deletable.Id).Ok);
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Assert.False(results.Single(r => r.TaskId == running.Id).Ok);
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Assert.Null(await _tasks.GetByIdAsync(deletable.Id));
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Assert.NotNull(await _tasks.GetByIdAsync(running.Id));
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}
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[Fact]
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public async Task BatchUpdateTaskStatus_QueuesIdleTasks()
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{
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var listId = await SeedListAsync();
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var t1 = await SeedTaskAsync(listId, "a", TaskStatus.Idle);
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var t2 = await SeedTaskAsync(listId, "b", TaskStatus.Idle);
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var sut = BuildSut();
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var results = await sut.BatchUpdateTaskStatus(new[] { t1.Id, t2.Id }, "Queued", CancellationToken.None);
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Assert.All(results, r => Assert.True(r.Ok));
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Assert.Equal(TaskStatus.Queued, (await _tasks.GetByIdAsync(t1.Id))!.Status);
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Assert.Equal(TaskStatus.Queued, (await _tasks.GetByIdAsync(t2.Id))!.Status);
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}
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[Fact]
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public async Task BatchTools_RejectEmptyBatch()
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{
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var sut = BuildSut();
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await Assert.ThrowsAsync<InvalidOperationException>(
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() => sut.BatchGetTasks(Array.Empty<string>(), CancellationToken.None));
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}
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[Fact]
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public async Task BatchTools_RejectOversizedBatch()
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{
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var sut = BuildSut();
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var ids = Enumerable.Range(0, 101).Select(i => i.ToString()).ToArray();
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var ex = await Assert.ThrowsAsync<InvalidOperationException>(
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() => sut.BatchGetTasks(ids, CancellationToken.None));
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Assert.Contains("max", ex.Message, StringComparison.OrdinalIgnoreCase);
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}
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}
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