Files
agent-framework/dotnet/tests/Microsoft.Agents.AI.Foundry.UnitTests/Hosting/WorkflowIntegrationTests.cs
Ben Thomas 5fe8941ff9 .NET: dotnet: Add server-side Foundry Toolbox support and fix SDK beta.4 br… (#5450)
* dotnet: Add server-side Foundry Toolbox support and fix SDK beta.4 breaking changes

Add FoundryToolbox and AIProjectClient extensions to Microsoft.Agents.AI.Foundry.Hosting
for server-side toolbox tool integration matching Python's FoundryChatClient.get_toolbox()
pattern. Tools are fetched from the Foundry project SDK and passed as server-side tools
in the Responses API request.

New files:
- FoundryToolbox.cs: Core implementation using AgentAdministrationClient SDK
- AIProjectClientToolboxExtensions.cs: Extension methods on AIProjectClient
- Agent_Step25_ToolboxServerSideTools sample with create helper and combine flow
- 19 unit tests covering param validation, conversion, sanitization, and extensions

SDK breaking changes (Azure.AI.AgentServer.Responses beta.3 -> beta.4):
- FunctionToolCallOutputResource renamed to OutputItemFunctionToolCallOutput
- AzureAIAgentServerResponsesModelFactory made internal, replaced with direct constructors
- ResponseUsage constructor now requires non-null token details parameters

Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>

* fix: reuse endpoint variable in CreateSampleToolboxAsync

Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>

* fix: pass endpoint through static local functions to avoid capture

Static local functions cannot capture top-level variables. Thread the
endpoint parameter through Main, CombineToolboxes, and CreateSampleToolboxAsync.

Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>

* refactor: remove unused projectClient param from CreateSampleToolboxAsync

Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>

* Update dotnet/samples/02-agents/AgentsWithFoundry/Agent_Step25_ToolboxServerSideTools/README.md

Co-authored-by: Copilot <175728472+Copilot@users.noreply.github.com>

* Update dotnet/samples/02-agents/AgentsWithFoundry/Agent_Step25_ToolboxServerSideTools/Program.cs

Co-authored-by: westey <164392973+westey-m@users.noreply.github.com>

* Update dotnet/samples/02-agents/AgentsWithFoundry/Agent_Step25_ToolboxServerSideTools/Program.cs

Co-authored-by: westey <164392973+westey-m@users.noreply.github.com>

* Removing GetToolbocVersion.

* Removing tests for GetToolboxVersion

* fix: map cached/reasoning token counts in ConvertUsage instead of hardcoding zeros

Extract InputTokenDetails.CachedTokenCount and OutputTokenDetails.ReasoningTokenCount
from UsageDetails.AdditionalCounts, matching the pattern in AgentResponseExtensions.
Also accumulate detail counts when merging with existing usage.

Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>

---------

Co-authored-by: alliscode <bentho@microsoft.com>
Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>
Co-authored-by: Copilot <175728472+Copilot@users.noreply.github.com>
Co-authored-by: westey <164392973+westey-m@users.noreply.github.com>
2026-04-23 18:52:03 +00:00

509 lines
23 KiB
C#

// Copyright (c) Microsoft. All rights reserved.
using System;
using System.Collections.Generic;
using System.Linq;
using System.Runtime.CompilerServices;
using System.Text.Json;
using System.Threading;
using System.Threading.Tasks;
using Azure.AI.AgentServer.Responses;
using Azure.AI.AgentServer.Responses.Models;
using Microsoft.Agents.AI.Foundry.Hosting;
using Microsoft.Agents.AI.Workflows;
using Microsoft.Extensions.AI;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.Logging;
using Microsoft.Extensions.Logging.Abstractions;
using Moq;
using MeaiTextContent = Microsoft.Extensions.AI.TextContent;
namespace Microsoft.Agents.AI.Foundry.UnitTests.Hosting;
/// <summary>
/// Integration tests that verify workflow execution through the
/// <see cref="AgentFrameworkResponseHandler"/> → <see cref="OutputConverter"/> pipeline.
/// These use real workflow builders and the InProcessExecution environment
/// to produce authentic streaming event patterns.
/// </summary>
public class WorkflowIntegrationTests
{
// ===== Sequential Workflow Tests =====
[Fact]
public async Task SequentialWorkflow_SingleAgent_ProducesTextOutputAsync()
{
// Arrange: single-agent sequential workflow
var echoAgent = new StreamingTextAgent("echo", "Hello from the workflow!");
var workflow = AgentWorkflowBuilder.BuildSequential("test-sequential", echoAgent);
var workflowAgent = workflow.AsAIAgent(
id: "workflow-agent",
name: "Test Workflow",
executionEnvironment: InProcessExecution.OffThread,
includeExceptionDetails: true);
var (handler, request, context) = CreateHandlerWithAgent(workflowAgent, "Hello");
// Act
var events = await CollectEventsAsync(handler, request, context);
// Assert: should have lifecycle events + at least one text output + terminal
Assert.IsType<ResponseCreatedEvent>(events[0]);
Assert.IsType<ResponseInProgressEvent>(events[1]);
Assert.True(events.Count >= 4, $"Expected at least 4 events, got {events.Count}");
var lastEvent = events[^1];
Assert.True(
lastEvent is ResponseCompletedEvent || lastEvent is ResponseFailedEvent,
$"Expected terminal event, got {lastEvent.GetType().Name}");
}
[Fact]
public async Task SequentialWorkflow_TwoAgents_ProducesOutputFromBothAsync()
{
// Arrange: two agents in sequence
var agent1 = new StreamingTextAgent("agent1", "First agent says hello");
var agent2 = new StreamingTextAgent("agent2", "Second agent says goodbye");
var workflow = AgentWorkflowBuilder.BuildSequential("test-sequential-2", agent1, agent2);
var workflowAgent = workflow.AsAIAgent(
id: "seq-workflow",
name: "Sequential Workflow",
executionEnvironment: InProcessExecution.OffThread,
includeExceptionDetails: true);
var (handler, request, context) = CreateHandlerWithAgent(workflowAgent, "Process this");
// Act
var events = await CollectEventsAsync(handler, request, context);
// Assert: should have workflow action events for executor lifecycle
var lastEvent = events[^1];
Assert.True(
lastEvent is ResponseCompletedEvent || lastEvent is ResponseFailedEvent,
$"Expected terminal event, got {lastEvent.GetType().Name}");
// Should have output item events (either text messages or workflow actions)
Assert.True(events.OfType<ResponseOutputItemAddedEvent>().Any(),
"Expected at least one output item from the workflow");
}
// ===== Workflow Error Propagation =====
[Fact]
public async Task Workflow_AgentThrowsException_ProducesErrorOutputAsync()
{
// Arrange: workflow with an agent that throws
var throwingAgent = new ThrowingStreamingAgent("thrower", new InvalidOperationException("Agent crashed"));
var workflow = AgentWorkflowBuilder.BuildSequential("test-error", throwingAgent);
var workflowAgent = workflow.AsAIAgent(
id: "error-workflow",
name: "Error Workflow",
executionEnvironment: InProcessExecution.OffThread,
includeExceptionDetails: true);
var (handler, request, context) = CreateHandlerWithAgent(workflowAgent, "Trigger error");
// Act
var events = await CollectEventsAsync(handler, request, context);
// Assert: should have lifecycle events + error/failure indicator
Assert.IsType<ResponseCreatedEvent>(events[0]);
Assert.IsType<ResponseInProgressEvent>(events[1]);
var lastEvent = events[^1];
// Workflow errors surface as either Failed or Completed (depending on error handling)
Assert.True(
lastEvent is ResponseCompletedEvent || lastEvent is ResponseFailedEvent,
$"Expected terminal event, got {lastEvent.GetType().Name}");
}
// ===== Workflow Action Lifecycle Events =====
[Fact]
public async Task Workflow_ExecutorEvents_ProduceWorkflowActionItemsAsync()
{
// Arrange
var agent = new StreamingTextAgent("test-agent", "Result");
var workflow = AgentWorkflowBuilder.BuildSequential("test-actions", agent);
var workflowAgent = workflow.AsAIAgent(
id: "actions-workflow",
name: "Actions Workflow",
executionEnvironment: InProcessExecution.OffThread);
var (handler, request, context) = CreateHandlerWithAgent(workflowAgent, "Hello");
// Act
var events = await CollectEventsAsync(handler, request, context);
// Assert: workflow should produce OutputItemAdded events for executor lifecycle
var addedEvents = events.OfType<ResponseOutputItemAddedEvent>().ToList();
Assert.True(addedEvents.Count >= 1,
$"Expected at least 1 output item added event, got {addedEvents.Count}");
}
// ===== Keyed Workflow Registration =====
[Fact]
public async Task WorkflowAgent_RegisteredWithKey_ResolvesCorrectlyAsync()
{
// Arrange: workflow agent registered with a keyed service name
var agent = new StreamingTextAgent("inner", "Keyed workflow response");
var workflow = AgentWorkflowBuilder.BuildSequential("keyed-wf", agent);
var workflowAgent = workflow.AsAIAgent(
id: "keyed-workflow",
name: "Keyed Workflow",
executionEnvironment: InProcessExecution.OffThread);
var services = new ServiceCollection();
services.AddSingleton<AgentSessionStore>(new InMemoryAgentSessionStore());
services.AddKeyedSingleton("my-workflow", workflowAgent);
var sp = services.BuildServiceProvider();
var handler = new AgentFrameworkResponseHandler(sp, NullLogger<AgentFrameworkResponseHandler>.Instance);
var request = new CreateResponse { Model = "test", AgentReference = new AgentReference("my-workflow") };
request.Input = CreateUserInput("Test keyed workflow");
var mockContext = CreateMockContext();
// Act
var events = await CollectEventsAsync(handler, request, mockContext.Object);
// Assert
Assert.IsType<ResponseCreatedEvent>(events[0]);
Assert.True(events.Count >= 3, $"Expected at least 3 events, got {events.Count}");
}
// ===== OutputConverter Direct Workflow Pattern Tests =====
// These test the OutputConverter directly with update patterns that mirror real workflows.
[Fact]
public async Task OutputConverter_SequentialWorkflowPattern_ProducesCorrectEventsAsync()
{
// Simulate what WorkflowSession produces for a 2-agent sequential workflow
var (stream, _) = CreateTestStream();
var updates = new[]
{
// Superstep 1: Agent 1
new AgentResponseUpdate { RawRepresentation = new SuperStepStartedEvent(1) },
new AgentResponseUpdate { RawRepresentation = new ExecutorInvokedEvent("agent_1", "start") },
new AgentResponseUpdate { MessageId = "msg_a1", Contents = [new MeaiTextContent("Agent 1 output")] },
new AgentResponseUpdate { RawRepresentation = new ExecutorCompletedEvent("agent_1", null) },
new AgentResponseUpdate { RawRepresentation = new SuperStepCompletedEvent(1) },
// Superstep 2: Agent 2
new AgentResponseUpdate { RawRepresentation = new SuperStepStartedEvent(2) },
new AgentResponseUpdate { RawRepresentation = new ExecutorInvokedEvent("agent_2", "start") },
new AgentResponseUpdate { MessageId = "msg_a2", Contents = [new MeaiTextContent("Agent 2 output")] },
new AgentResponseUpdate { RawRepresentation = new ExecutorCompletedEvent("agent_2", null) },
new AgentResponseUpdate { RawRepresentation = new SuperStepCompletedEvent(2) },
};
var events = new List<ResponseStreamEvent>();
await foreach (var evt in OutputConverter.ConvertUpdatesToEventsAsync(ToAsync(updates), stream))
{
events.Add(evt);
}
// 4 workflow action items + 2 text messages = 6 output items
Assert.Equal(6, events.OfType<ResponseOutputItemAddedEvent>().Count());
Assert.Equal(2, events.OfType<ResponseTextDeltaEvent>().Count());
Assert.IsType<ResponseCompletedEvent>(events[^1]);
}
[Fact]
public async Task OutputConverter_GroupChatPattern_ProducesCorrectEventsAsync()
{
// Simulate round-robin group chat: agent1 → agent2 → agent1 → terminate
var (stream, _) = CreateTestStream();
var updates = new[]
{
new AgentResponseUpdate { RawRepresentation = new SuperStepStartedEvent(1) },
new AgentResponseUpdate { RawRepresentation = new ExecutorInvokedEvent("chat_agent_1", "turn") },
new AgentResponseUpdate { MessageId = "msg_gc_1", Contents = [new MeaiTextContent("Agent 1 turn 1")] },
new AgentResponseUpdate { RawRepresentation = new ExecutorCompletedEvent("chat_agent_1", null) },
new AgentResponseUpdate { RawRepresentation = new SuperStepCompletedEvent(1) },
new AgentResponseUpdate { RawRepresentation = new SuperStepStartedEvent(2) },
new AgentResponseUpdate { RawRepresentation = new ExecutorInvokedEvent("chat_agent_2", "turn") },
new AgentResponseUpdate { MessageId = "msg_gc_2", Contents = [new MeaiTextContent("Agent 2 turn 1")] },
new AgentResponseUpdate { RawRepresentation = new ExecutorCompletedEvent("chat_agent_2", null) },
new AgentResponseUpdate { RawRepresentation = new SuperStepCompletedEvent(2) },
new AgentResponseUpdate { RawRepresentation = new SuperStepStartedEvent(3) },
new AgentResponseUpdate { RawRepresentation = new ExecutorInvokedEvent("chat_agent_1", "turn") },
new AgentResponseUpdate { MessageId = "msg_gc_3", Contents = [new MeaiTextContent("Agent 1 turn 2")] },
new AgentResponseUpdate { RawRepresentation = new ExecutorCompletedEvent("chat_agent_1", null) },
new AgentResponseUpdate { RawRepresentation = new SuperStepCompletedEvent(3) },
};
var events = new List<ResponseStreamEvent>();
await foreach (var evt in OutputConverter.ConvertUpdatesToEventsAsync(ToAsync(updates), stream))
{
events.Add(evt);
}
// 6 workflow actions + 3 text messages = 9 output items
Assert.Equal(9, events.OfType<ResponseOutputItemAddedEvent>().Count());
Assert.Equal(3, events.OfType<ResponseTextDeltaEvent>().Count());
Assert.IsType<ResponseCompletedEvent>(events[^1]);
}
[Fact]
public async Task OutputConverter_CodeExecutorPattern_ProducesCorrectEventsAsync()
{
// Simulate a code-based FunctionExecutor: invoked → completed, no text content
// (code executors don't produce AgentResponseUpdateEvent, just executor lifecycle)
var (stream, _) = CreateTestStream();
var updates = new[]
{
new AgentResponseUpdate { RawRepresentation = new SuperStepStartedEvent(1) },
new AgentResponseUpdate { RawRepresentation = new ExecutorInvokedEvent("uppercase_fn", "hello") },
new AgentResponseUpdate { RawRepresentation = new ExecutorCompletedEvent("uppercase_fn", "HELLO") },
new AgentResponseUpdate { RawRepresentation = new SuperStepCompletedEvent(1) },
// Second executor uses the output
new AgentResponseUpdate { RawRepresentation = new SuperStepStartedEvent(2) },
new AgentResponseUpdate { RawRepresentation = new ExecutorInvokedEvent("format_agent", "start") },
new AgentResponseUpdate { MessageId = "msg_fmt", Contents = [new MeaiTextContent("Formatted: HELLO")] },
new AgentResponseUpdate { RawRepresentation = new ExecutorCompletedEvent("format_agent", null) },
new AgentResponseUpdate { RawRepresentation = new SuperStepCompletedEvent(2) },
};
var events = new List<ResponseStreamEvent>();
await foreach (var evt in OutputConverter.ConvertUpdatesToEventsAsync(ToAsync(updates), stream))
{
events.Add(evt);
}
// 4 workflow actions + 1 text message = 5 output items
Assert.Equal(5, events.OfType<ResponseOutputItemAddedEvent>().Count());
Assert.Single(events.OfType<ResponseTextDeltaEvent>());
Assert.IsType<ResponseCompletedEvent>(events[^1]);
}
[Fact]
public async Task OutputConverter_SubworkflowPattern_ProducesCorrectEventsAsync()
{
// Simulate a parent workflow that invokes a sub-workflow executor
var (stream, _) = CreateTestStream();
var updates = new[]
{
new AgentResponseUpdate { RawRepresentation = new WorkflowStartedEvent("parent") },
new AgentResponseUpdate { RawRepresentation = new SuperStepStartedEvent(1) },
// Sub-workflow executor invoked
new AgentResponseUpdate { RawRepresentation = new ExecutorInvokedEvent("sub_workflow_host", "start") },
// Inner agent within sub-workflow produces text (unwrapped by WorkflowSession)
new AgentResponseUpdate { MessageId = "msg_sub_1", Contents = [new MeaiTextContent("Sub-workflow agent output")] },
// Sub-workflow executor completed
new AgentResponseUpdate { RawRepresentation = new ExecutorCompletedEvent("sub_workflow_host", null) },
new AgentResponseUpdate { RawRepresentation = new SuperStepCompletedEvent(1) },
};
var events = new List<ResponseStreamEvent>();
await foreach (var evt in OutputConverter.ConvertUpdatesToEventsAsync(ToAsync(updates), stream))
{
events.Add(evt);
}
// 2 workflow actions + 1 text message = 3 output items
Assert.Equal(3, events.OfType<ResponseOutputItemAddedEvent>().Count());
Assert.Single(events.OfType<ResponseTextDeltaEvent>());
Assert.IsType<ResponseCompletedEvent>(events[^1]);
}
[Fact]
public async Task OutputConverter_WorkflowWithMultipleContentTypes_HandlesAllCorrectlyAsync()
{
// Simulate a workflow producing reasoning, text, function calls, and usage
var (stream, _) = CreateTestStream();
var updates = new[]
{
new AgentResponseUpdate { RawRepresentation = new ExecutorInvokedEvent("planner", "start") },
// Reasoning
new AgentResponseUpdate { Contents = [new TextReasoningContent("Let me think about this...")] },
// Function call (tool use)
new AgentResponseUpdate
{
Contents = [new FunctionCallContent("call_search", "web_search",
new Dictionary<string, object?> { ["query"] = "latest news" })]
},
new AgentResponseUpdate { RawRepresentation = new ExecutorCompletedEvent("planner", null) },
// Next executor uses tool result
new AgentResponseUpdate { RawRepresentation = new ExecutorInvokedEvent("writer", "start") },
new AgentResponseUpdate { MessageId = "msg_w1", Contents = [new MeaiTextContent("Based on my research, ")] },
new AgentResponseUpdate { MessageId = "msg_w1", Contents = [new MeaiTextContent("here are the findings.")] },
new AgentResponseUpdate
{
Contents = [new UsageContent(new UsageDetails { InputTokenCount = 500, OutputTokenCount = 200, TotalTokenCount = 700 })]
},
new AgentResponseUpdate { RawRepresentation = new ExecutorCompletedEvent("writer", null) },
};
var events = new List<ResponseStreamEvent>();
await foreach (var evt in OutputConverter.ConvertUpdatesToEventsAsync(ToAsync(updates), stream))
{
events.Add(evt);
}
// Workflow actions: 4 (2 invoked + 2 completed)
// Content: 1 reasoning + 1 function call + 1 text message = 3
// Total: 7 output items
Assert.Equal(7, events.OfType<ResponseOutputItemAddedEvent>().Count());
Assert.Contains(events, e => e is ResponseFunctionCallArgumentsDoneEvent);
Assert.Equal(2, events.OfType<ResponseTextDeltaEvent>().Count());
Assert.IsType<ResponseCompletedEvent>(events[^1]);
}
// ===== Helpers =====
private static (AgentFrameworkResponseHandler handler, CreateResponse request, ResponseContext context)
CreateHandlerWithAgent(AIAgent agent, string userMessage)
{
var services = new ServiceCollection();
services.AddSingleton<AgentSessionStore>(new InMemoryAgentSessionStore());
services.AddSingleton(agent);
services.AddSingleton<ILogger<AgentFrameworkResponseHandler>>(NullLogger<AgentFrameworkResponseHandler>.Instance);
var sp = services.BuildServiceProvider();
var handler = new AgentFrameworkResponseHandler(sp, NullLogger<AgentFrameworkResponseHandler>.Instance);
var request = new CreateResponse { Model = "test" };
request.Input = CreateUserInput(userMessage);
var mockContext = CreateMockContext();
return (handler, request, mockContext.Object);
}
private static BinaryData CreateUserInput(string text)
{
return BinaryData.FromObjectAsJson(new[]
{
new { type = "message", id = "msg_in_1", status = "completed", role = "user",
content = new[] { new { type = "input_text", text } }
}
});
}
private static Mock<ResponseContext> CreateMockContext()
{
var mock = new Mock<ResponseContext>("resp_" + new string('0', 46)) { CallBase = true };
mock.Setup(x => x.GetHistoryAsync(It.IsAny<CancellationToken>()))
.ReturnsAsync(Array.Empty<OutputItem>());
mock.Setup(x => x.GetInputItemsAsync(It.IsAny<bool>(), It.IsAny<CancellationToken>()))
.ReturnsAsync(Array.Empty<Item>());
return mock;
}
private static (ResponseEventStream stream, Mock<ResponseContext> mockContext) CreateTestStream()
{
var mockContext = new Mock<ResponseContext>("resp_" + new string('0', 46)) { CallBase = true };
var request = new CreateResponse { Model = "test-model" };
var stream = new ResponseEventStream(mockContext.Object, request);
return (stream, mockContext);
}
private static async Task<List<ResponseStreamEvent>> CollectEventsAsync(
AgentFrameworkResponseHandler handler,
CreateResponse request,
ResponseContext context)
{
var events = new List<ResponseStreamEvent>();
await foreach (var evt in handler.CreateAsync(request, context, CancellationToken.None))
{
events.Add(evt);
}
return events;
}
private static async IAsyncEnumerable<T> ToAsync<T>(IEnumerable<T> source)
{
foreach (var item in source)
{
yield return item;
}
await Task.CompletedTask;
}
// ===== Test Agent Types =====
/// <summary>
/// A test agent that streams a single text update.
/// </summary>
private sealed class StreamingTextAgent(string id, string responseText) : AIAgent
{
public new string Id => id;
protected override async IAsyncEnumerable<AgentResponseUpdate> RunCoreStreamingAsync(
IEnumerable<ChatMessage> messages,
AgentSession? session,
AgentRunOptions? options,
[EnumeratorCancellation] CancellationToken cancellationToken = default)
{
yield return new AgentResponseUpdate
{
MessageId = $"msg_{id}",
Contents = [new MeaiTextContent(responseText)]
};
await Task.CompletedTask;
}
protected override Task<AgentResponse> RunCoreAsync(
IEnumerable<ChatMessage> messages,
AgentSession? session,
AgentRunOptions? options,
CancellationToken cancellationToken = default) =>
throw new NotImplementedException();
protected override ValueTask<AgentSession> CreateSessionCoreAsync(
CancellationToken cancellationToken = default) =>
throw new NotImplementedException();
protected override ValueTask<JsonElement> SerializeSessionCoreAsync(
AgentSession session,
JsonSerializerOptions? jsonSerializerOptions,
CancellationToken cancellationToken = default) =>
throw new NotImplementedException();
protected override ValueTask<AgentSession> DeserializeSessionCoreAsync(
JsonElement serializedState,
JsonSerializerOptions? jsonSerializerOptions,
CancellationToken cancellationToken = default) =>
throw new NotImplementedException();
}
/// <summary>
/// A test agent that always throws an exception during streaming.
/// </summary>
private sealed class ThrowingStreamingAgent(string id, Exception exception) : AIAgent
{
public new string Id => id;
protected override IAsyncEnumerable<AgentResponseUpdate> RunCoreStreamingAsync(
IEnumerable<ChatMessage> messages,
AgentSession? session,
AgentRunOptions? options,
CancellationToken cancellationToken = default) =>
throw exception;
protected override Task<AgentResponse> RunCoreAsync(
IEnumerable<ChatMessage> messages,
AgentSession? session,
AgentRunOptions? options,
CancellationToken cancellationToken = default) =>
throw new NotImplementedException();
protected override ValueTask<AgentSession> CreateSessionCoreAsync(
CancellationToken cancellationToken = default) =>
throw new NotImplementedException();
protected override ValueTask<JsonElement> SerializeSessionCoreAsync(
AgentSession session,
JsonSerializerOptions? jsonSerializerOptions,
CancellationToken cancellationToken = default) =>
throw new NotImplementedException();
protected override ValueTask<AgentSession> DeserializeSessionCoreAsync(
JsonElement serializedState,
JsonSerializerOptions? jsonSerializerOptions,
CancellationToken cancellationToken = default) =>
throw new NotImplementedException();
}
}