Files
agent-framework/dotnet/tests/Microsoft.Agents.AI.Workflows.UnitTests/AIAgentHostExecutorTests.cs
Jacob Alber 6e8c7c42c8 .NET: [BREAKING] feat: Improve Agent hosting inside Workflows (#3142)
* refactor: Rename AggregateTurnMessagesExecutor

* feat: Rework Agent Hosting for Configurability and HIL support

* Adds support for selecting whether updates and/or full responses are
  emitted to events
* Adds support for HIL/FunctionCalls (including interception)
* Implements internal support for ExternalRequests from any executor
  (not just RequestPort)

* test: Add tests for new AIAgentHostExecutor functionality

* feat: Unify non-Handoff Agent Hosting

* doc: More explicit documentation for `overwrite` in RouteBuilder
2026-01-23 19:45:29 +00:00

279 lines
11 KiB
C#

// Copyright (c) Microsoft. All rights reserved.
using System;
using System.Collections.Generic;
using System.Linq;
using System.Threading.Tasks;
using FluentAssertions;
using Microsoft.Agents.AI.Workflows.Specialized;
using Microsoft.Extensions.AI;
namespace Microsoft.Agents.AI.Workflows.UnitTests;
public class AIAgentHostExecutorTests
{
private const string TestAgentId = nameof(TestAgentId);
private const string TestAgentName = nameof(TestAgentName);
private static readonly string[] s_messageStrings = [
"",
"Hello world!",
"Lorem ipsum dolor sit amet, consectetur adipiscing elit.",
"Quisque dignissim ante odio, at facilisis orci porta a. Duis mi augue, fringilla eu egestas a, pellentesque sed lacus."
];
private static List<ChatMessage> TestMessages => TestReplayAgent.ToChatMessages(s_messageStrings);
[Theory]
[InlineData(null, null)]
[InlineData(null, true)]
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[InlineData(true, true)]
[InlineData(true, false)]
[InlineData(false, null)]
[InlineData(false, true)]
[InlineData(false, false)]
public async Task Test_AgentHostExecutor_EmitsStreamingUpdatesIFFConfiguredAsync(bool? executorSetting, bool? turnSetting)
{
// Arrange
TestRunContext testContext = new();
TestReplayAgent agent = new(TestMessages, TestAgentId, TestAgentName);
AIAgentHostExecutor executor = new(agent, new() { EmitAgentUpdateEvents = executorSetting });
testContext.ConfigureExecutor(executor);
// Act
await executor.TakeTurnAsync(new(turnSetting), testContext.BindWorkflowContext(executor.Id));
// Assert
// The rules are: TurnToken overrides Agent, if set. Default to false, if both unset.
bool expectingEvents = turnSetting ?? executorSetting ?? false;
AgentResponseUpdateEvent[] updates = testContext.Events.OfType<AgentResponseUpdateEvent>().ToArray();
if (expectingEvents)
{
// The way TestReplayAgent is set up, it will emit one update per non-empty AIContent
List<AIContent> expectedUpdateContents = TestMessages.SelectMany(message => message.Contents).ToList();
updates.Should().HaveCount(expectedUpdateContents.Count);
for (int i = 0; i < updates.Length; i++)
{
AgentResponseUpdateEvent updateEvent = updates[i];
AIContent expectedUpdateContent = expectedUpdateContents[i];
updateEvent.ExecutorId.Should().Be(agent.GetDescriptiveId());
AgentResponseUpdate update = updateEvent.Update;
update.AuthorName.Should().Be(TestAgentName);
update.AgentId.Should().Be(TestAgentId);
update.Contents.Should().HaveCount(1);
update.Contents[0].Should().BeEquivalentTo(expectedUpdateContent);
}
}
else
{
updates.Should().BeEmpty();
}
}
[Theory]
[InlineData(true)]
[InlineData(false)]
public async Task Test_AgentHostExecutor_EmitsResponseIFFConfiguredAsync(bool executorSetting)
{
// Arrange
TestRunContext testContext = new();
TestReplayAgent agent = new(TestMessages, TestAgentId, TestAgentName);
AIAgentHostExecutor executor = new(agent, new() { EmitAgentResponseEvents = executorSetting });
testContext.ConfigureExecutor(executor);
// Act
await executor.TakeTurnAsync(new(), testContext.BindWorkflowContext(executor.Id));
// Assert
AgentResponseEvent[] updates = testContext.Events.OfType<AgentResponseEvent>().ToArray();
if (executorSetting)
{
updates.Should().HaveCount(1);
AgentResponseEvent responseEvent = updates[0];
responseEvent.ExecutorId.Should().Be(agent.GetDescriptiveId());
AgentResponse response = responseEvent.Response;
response.AgentId.Should().Be(TestAgentId);
response.Messages.Should().HaveCount(TestMessages.Count - 1);
for (int i = 0; i < response.Messages.Count; i++)
{
ChatMessage responseMessage = response.Messages[i];
ChatMessage expectedMessage = TestMessages[i + 1]; // Skip the first empty message
responseMessage.AuthorName.Should().Be(TestAgentName);
responseMessage.Text.Should().Be(expectedMessage.Text);
}
}
else
{
updates.Should().BeEmpty();
}
}
private static ChatMessage UserMessage => new(ChatRole.User, "Hello from User!") { AuthorName = "User" };
private static ChatMessage AssistantMessage => new(ChatRole.Assistant, "Hello from Assistant!") { AuthorName = "User" };
private static ChatMessage TestAgentMessage => new(ChatRole.Assistant, $"Hello from {TestAgentName}!") { AuthorName = TestAgentName };
[Theory]
[InlineData(true, true, false, false)]
[InlineData(true, true, false, true)]
[InlineData(true, true, true, false)]
[InlineData(true, true, true, true)]
[InlineData(true, false, false, false)]
[InlineData(true, false, false, true)]
[InlineData(true, false, true, false)]
[InlineData(true, false, true, true)]
[InlineData(false, true, false, false)]
[InlineData(false, true, false, true)]
[InlineData(false, true, true, false)]
[InlineData(false, true, true, true)]
[InlineData(false, false, false, false)]
[InlineData(false, false, false, true)]
[InlineData(false, false, true, false)]
[InlineData(false, false, true, true)]
public async Task Test_AgentHostExecutor_ReassignsRolesIFFConfiguredAsync(bool executorSetting, bool includeUser, bool includeSelfMessages, bool includeOtherMessages)
{
// Arrange
TestRunContext testContext = new();
RoleCheckAgent agent = new(false, TestAgentId, TestAgentName);
AIAgentHostExecutor executor = new(agent, new() { ReassignOtherAgentsAsUsers = executorSetting });
testContext.ConfigureExecutor(executor);
List<ChatMessage> messages = [];
if (includeUser)
{
messages.Add(UserMessage);
}
if (includeSelfMessages)
{
messages.Add(TestAgentMessage);
}
if (includeOtherMessages)
{
messages.Add(AssistantMessage);
}
// Act
await executor.Router.RouteMessageAsync(messages, testContext.BindWorkflowContext(executor.Id));
Func<Task> act = async () => await executor.TakeTurnAsync(new(), testContext.BindWorkflowContext(executor.Id));
// Assert
bool shouldThrow = includeOtherMessages && !executorSetting;
if (shouldThrow)
{
await act.Should().ThrowAsync<InvalidOperationException>();
}
else
{
await act.Should().NotThrowAsync();
}
}
[Theory]
[InlineData(true, TestAgentRequestType.FunctionCall)]
[InlineData(false, TestAgentRequestType.FunctionCall)]
//[InlineData(true, TestAgentRequestType.UserInputRequest)] TODO: Enable when we support polymorphic routing
[InlineData(false, TestAgentRequestType.UserInputRequest)]
public async Task Test_AgentHostExecutor_InterceptsRequestsIFFConfiguredAsync(bool intercept, TestAgentRequestType requestType)
{
const int UnpairedRequestCount = 2;
const int PairedRequestCount = 3;
// Arrange
TestRunContext testContext = new();
TestRequestAgent agent = new(requestType, UnpairedRequestCount, PairedRequestCount, TestAgentId, TestAgentName);
AIAgentHostOptions agentHostOptions = requestType switch
{
TestAgentRequestType.FunctionCall =>
new()
{
EmitAgentResponseEvents = true,
InterceptUnterminatedFunctionCalls = intercept
},
TestAgentRequestType.UserInputRequest =>
new()
{
EmitAgentResponseEvents = true,
InterceptUserInputRequests = intercept
},
_ => throw new NotSupportedException()
};
AIAgentHostExecutor executor = new(agent, agentHostOptions);
testContext.ConfigureExecutor(executor);
// Act
await executor.TakeTurnAsync(new(), testContext.BindWorkflowContext(executor.Id));
// Assert
List<object> responses;
if (intercept)
{
// We expect to have a sent message containing the requests as an ExternalRequest
switch (requestType)
{
case TestAgentRequestType.FunctionCall:
responses = ExtractAndValidateRequestContents<FunctionCallContent>();
break;
case TestAgentRequestType.UserInputRequest:
responses = ExtractAndValidateRequestContents<UserInputRequestContent>();
break;
default:
throw new NotSupportedException();
}
List<object> ExtractAndValidateRequestContents<TRequest>() where TRequest : AIContent
{
IEnumerable<TRequest> requests = testContext.QueuedMessages.Should().ContainKey(executor.Id)
.WhoseValue
.Select(envelope => envelope.Message as TRequest)
.Where(item => item is not null)
.Select(item => item!);
return agent.ValidateUnpairedRequests(requests).ToList();
}
}
else
{
responses = agent.ValidateUnpairedRequests([.. testContext.ExternalRequests]).ToList<object>();
}
// Act 2
foreach (object response in responses.Take(UnpairedRequestCount - 1))
{
await executor.Router.RouteMessageAsync(response, testContext.BindWorkflowContext(executor.Id));
}
// Assert 2
// Since we are not finished, we expect the agent to not have produced a final response (="Remaining: 1")
AgentResponseEvent lastResponseEvent = testContext.Events.OfType<AgentResponseEvent>().Should().NotBeEmpty()
.And.Subject.Last();
lastResponseEvent.Response.Text.Should().Be("Remaining: 1");
// Act 3
object finalResponse = responses.Last();
await executor.Router.RouteMessageAsync(finalResponse, testContext.BindWorkflowContext(executor.Id));
// Assert 3
// Now that we are finished, we expect the agent to have produced a final response
lastResponseEvent = testContext.Events.OfType<AgentResponseEvent>().Should().NotBeEmpty()
.And.Subject.Last();
lastResponseEvent.Response.Text.Should().Be("Done");
}
}