fix: replace orchestrator-develop branch references with main

The orchestrator-develop branch no longer exists. Update all fallback clone commands and test fixtures to use main instead. Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
ci: set macOS builds to continue-on-error
2026-06-01 22:36:15 -07:00 · 2026-03-09 20:08:44 +00:00 · 2026-03-05 23:33:48 +00:00 · 2026-03-05 14:10:24 +00:00 · 2026-03-05 13:00:17 +00:00 · 2026-03-05 07:58:58 +00:00
18 changed files with 953 additions and 2711 deletions
--- a/action.yml
+++ b/action.yml
@@ -182,8 +182,8 @@ inputs:
    required: false
    default: ''
    description:
-      '[Orchestrator] Run a custom job instead of the standard build automation for orchestrator (in yaml format with
+      '[Orchestrator] Run a custom job instead of the standard build automation for orchestrator (in yaml format with the
-      the keys image, secrets (name, value object array), command line string)'
+      keys image, secrets (name, value object array), command line string)'
  awsStackName:
    default: 'game-ci'
    required: false
@@ -194,6 +194,42 @@ inputs:
    description:
      '[Orchestrator] Either local, k8s or aws can be used to run builds on a remote cluster. Additional parameters must
      be configured.'
  fallbackProviderStrategy:
    default: ''
    required: false
    description:
      '[Orchestrator] Fallback provider when the primary is unavailable. Used with runnerCheckEnabled for automatic
      failover, or as a catch-all if the primary provider fails to initialize.'
  runnerCheckEnabled:
    default: 'false'
    required: false
    description:
      '[Orchestrator] Check GitHub Actions runner availability before starting a build. When no suitable runners are
      available and fallbackProviderStrategy is set, automatically routes to the fallback provider.'
  runnerCheckLabels:
    default: ''
    required: false
    description:
      '[Orchestrator] Comma-separated runner labels to filter when checking availability (e.g. self-hosted,linux).
      When empty, checks all runners in the repository.'
  runnerCheckMinAvailable:
    default: '1'
    required: false
    description:
      '[Orchestrator] Minimum number of idle runners required for the primary provider. If fewer are available,
      routes to fallbackProviderStrategy.'
  retryOnFallback:
    default: 'false'
    required: false
    description:
      '[Orchestrator] When true and fallbackProviderStrategy is set, automatically retry the build on the fallback
      provider if the primary provider fails. Useful for long builds where transient cloud failures are common.'
  providerInitTimeout:
    default: '0'
    required: false
    description:
      '[Orchestrator] Maximum seconds to wait for the primary provider to initialize (setupWorkflow). If exceeded
      and fallbackProviderStrategy is set, switches to the fallback. Set to 0 to disable (default).'
  resourceTracking:
    default: 'false'
    required: false
@@ -279,23 +315,6 @@ inputs:
    description:
      '[Orchestrator] Specifies the repo for the unity builder. Useful if you forked the repo for testing, features, or
      fixes.'
  testSuitePath:
    description: 'Path to YAML test suite definition file'
    required: false
  testSuiteEvent:
    description: 'CI event name for suite selection (pr, push, release)'
    required: false
  testTaxonomyPath:
    description: 'Path to custom taxonomy definition YAML'
    required: false
  testResultFormat:
    description: 'Test result output format: junit, json, or both'
    required: false
    default: 'junit'
  testResultPath:
    description: 'Directory for structured test result output'
    required: false
    default: './test-results'
 outputs:
  volume:
--- a/dist/index.js
+++ b/dist/index.js
--- a/dist/index.js.map
+++ b/dist/index.js.map
--- a/src/index.ts
+++ b/src/index.ts
@@ -3,7 +3,6 @@ import { Action, BuildParameters, Cache, Orchestrator, Docker, ImageTag, Output
 import { Cli } from './model/cli/cli';
 import MacBuilder from './model/mac-builder';
 import PlatformSetup from './model/platform-setup';
 import { TestWorkflowService } from './model/orchestrator/services/test-workflow';
 async function runMain() {
  try {
@@ -18,23 +17,6 @@ async function runMain() {
    const { workspace, actionFolder } = Action;
    const buildParameters = await BuildParameters.create();
    // If a test suite path is provided, use the test workflow engine
    // instead of the standard build execution path
    if (buildParameters.testSuitePath) {
      core.info('[TestWorkflow] Test suite path detected, using test workflow engine');
      const results = await TestWorkflowService.executeTestSuite(buildParameters.testSuitePath, buildParameters);
      const totalFailed = results.reduce((sum, r) => sum + r.failed, 0);
      if (totalFailed > 0) {
        core.setFailed(`Test workflow completed with ${totalFailed} failure(s)`);
      } else {
        core.info('[TestWorkflow] All test runs passed');
      }
      return;
    }
    const baseImage = new ImageTag(buildParameters);
    let exitCode = -1;
--- a/src/model/build-parameters.ts
+++ b/src/model/build-parameters.ts
@@ -54,6 +54,12 @@ class BuildParameters {
  public sshAgent!: string;
  public sshPublicKeysDirectoryPath!: string;
  public providerStrategy!: string;
  public fallbackProviderStrategy!: string;
  public runnerCheckEnabled!: boolean;
  public runnerCheckLabels!: string[];
  public runnerCheckMinAvailable!: number;
  public retryOnFallback!: boolean;
  public providerInitTimeout!: number;
  public gitPrivateToken!: string;
  public awsStackName!: string;
  public awsEndpoint?: string;
@@ -107,12 +113,6 @@ class BuildParameters {
  public unityHubVersionOnMac!: string;
  public dockerWorkspacePath!: string;
  public testSuitePath!: string;
  public testSuiteEvent!: string;
  public testTaxonomyPath!: string;
  public testResultFormat!: string;
  public testResultPath!: string;
  public static shouldUseRetainedWorkspaceMode(buildParameters: BuildParameters) {
    return buildParameters.maxRetainedWorkspaces > 0 && Orchestrator.lockedWorkspace !== ``;
  }
@@ -200,6 +200,12 @@ class BuildParameters {
      containerRegistryRepository: Input.containerRegistryRepository,
      containerRegistryImageVersion: Input.containerRegistryImageVersion,
      providerStrategy: OrchestratorOptions.providerStrategy,
      fallbackProviderStrategy: OrchestratorOptions.fallbackProviderStrategy,
      runnerCheckEnabled: OrchestratorOptions.runnerCheckEnabled,
      runnerCheckLabels: OrchestratorOptions.runnerCheckLabels,
      runnerCheckMinAvailable: OrchestratorOptions.runnerCheckMinAvailable,
      retryOnFallback: OrchestratorOptions.retryOnFallback,
      providerInitTimeout: OrchestratorOptions.providerInitTimeout,
      buildPlatform: OrchestratorOptions.buildPlatform,
      kubeConfig: OrchestratorOptions.kubeConfig,
      containerMemory: OrchestratorOptions.containerMemory,
@@ -248,11 +254,6 @@ class BuildParameters {
      cacheUnityInstallationOnMac: Input.cacheUnityInstallationOnMac,
      unityHubVersionOnMac: Input.unityHubVersionOnMac,
      dockerWorkspacePath: Input.dockerWorkspacePath,
      testSuitePath: Input.testSuitePath,
      testSuiteEvent: Input.testSuiteEvent,
      testTaxonomyPath: Input.testTaxonomyPath,
      testResultFormat: Input.testResultFormat,
      testResultPath: Input.testResultPath,
    };
  }
--- a/src/model/input.ts
+++ b/src/model/input.ts
@@ -282,26 +282,6 @@ class Input {
    return Input.getInput('skipActivation')?.toLowerCase() ?? 'false';
  }
  static get testSuitePath(): string {
    return Input.getInput('testSuitePath') ?? '';
  }
  static get testSuiteEvent(): string {
    return Input.getInput('testSuiteEvent') ?? '';
  }
  static get testTaxonomyPath(): string {
    return Input.getInput('testTaxonomyPath') ?? '';
  }
  static get testResultFormat(): string {
    return Input.getInput('testResultFormat') ?? 'junit';
  }
  static get testResultPath(): string {
    return Input.getInput('testResultPath') ?? './test-results';
  }
  public static ToEnvVarFormat(input: string) {
    if (input.toUpperCase() === input) {
      return input;
--- a/src/model/orchestrator/options/orchestrator-options.ts
+++ b/src/model/orchestrator/options/orchestrator-options.ts
@@ -138,6 +138,32 @@ class OrchestratorOptions {
    return provider || 'local';
  }
  static get fallbackProviderStrategy(): string {
    return OrchestratorOptions.getInput('fallbackProviderStrategy') || '';
  }
  static get runnerCheckEnabled(): boolean {
    return OrchestratorOptions.getInput('runnerCheckEnabled') === 'true';
  }
  static get runnerCheckLabels(): string[] {
    const labels = OrchestratorOptions.getInput('runnerCheckLabels');
    return labels ? labels.split(',').map((l) => l.trim()) : [];
  }
  static get runnerCheckMinAvailable(): number {
    return Number(OrchestratorOptions.getInput('runnerCheckMinAvailable')) || 1;
  }
  static get retryOnFallback(): boolean {
    return OrchestratorOptions.getInput('retryOnFallback') === 'true';
  }
  static get providerInitTimeout(): number {
    return Number(OrchestratorOptions.getInput('providerInitTimeout')) || 0;
  }
  static get containerCpu(): string {
    return OrchestratorOptions.getInput('containerCpu') || `1024`;
  }
--- a/src/model/orchestrator/orchestrator.ts
+++ b/src/model/orchestrator/orchestrator.ts
@@ -20,6 +20,7 @@ import { FollowLogStreamService } from './services/core/follow-log-stream-servic
 import OrchestratorResult from './services/core/orchestrator-result';
 import OrchestratorOptions from './options/orchestrator-options';
 import ResourceTracking from './services/core/resource-tracking';
 import { RunnerAvailabilityService } from './services/core/runner-availability-service';
 class Orchestrator {
  public static Provider: ProviderInterface;
@@ -76,6 +77,42 @@ class Orchestrator {
  private static async setupSelectedBuildPlatform() {
    OrchestratorLogger.log(`Orchestrator platform selected ${Orchestrator.buildParameters.providerStrategy}`);
    // Check runner availability and apply fallback if needed
    if (Orchestrator.buildParameters.runnerCheckEnabled && Orchestrator.buildParameters.fallbackProviderStrategy) {
      const owner = OrchestratorOptions.githubOwner;
      const repo = OrchestratorOptions.githubRepoName;
      const token = Orchestrator.buildParameters.gitPrivateToken || process.env.GITHUB_TOKEN || '';
      OrchestratorLogger.log(
        `Checking runner availability (labels: [${Orchestrator.buildParameters.runnerCheckLabels.join(', ')}], min: ${
          Orchestrator.buildParameters.runnerCheckMinAvailable
        })`,
      );
      const result = await RunnerAvailabilityService.checkAvailability(
        owner,
        repo,
        token,
        Orchestrator.buildParameters.runnerCheckLabels,
        Orchestrator.buildParameters.runnerCheckMinAvailable,
      );
      OrchestratorLogger.log(
        `Runner check: ${result.totalRunners} total, ${result.matchingRunners} matching, ${result.idleRunners} idle — ${result.reason}`,
      );
      if (result.shouldFallback) {
        const original = Orchestrator.buildParameters.providerStrategy;
        const fallback = Orchestrator.buildParameters.fallbackProviderStrategy;
        OrchestratorLogger.log(`Falling back from '${original}' to '${fallback}' — ${result.reason}`);
        Orchestrator.buildParameters.providerStrategy = fallback;
        core.setOutput('providerFallbackUsed', 'true');
        core.setOutput('providerFallbackReason', result.reason);
      } else {
        core.setOutput('providerFallbackUsed', 'false');
      }
    }
    // Detect LocalStack endpoints and handle AWS provider appropriately
    // AWS_FORCE_PROVIDER options:
    //   - 'aws': Force AWS provider (requires LocalStack Pro with ECS support)
@@ -182,6 +219,30 @@ class Orchestrator {
    if (baseImage.includes(`undefined`)) {
      throw new Error(`baseImage is undefined`);
    }
    try {
      return await Orchestrator.runWithProvider(buildParameters, baseImage);
    } catch (primaryError: any) {
      // Retry on fallback provider if enabled and a fallback is configured
      const fallback = buildParameters.fallbackProviderStrategy;
      const alreadyOnFallback = buildParameters.providerStrategy === fallback;
      if (buildParameters.retryOnFallback && fallback && !alreadyOnFallback) {
        OrchestratorLogger.log(
          `Primary provider '${buildParameters.providerStrategy}' failed: ${primaryError.message}`,
        );
        OrchestratorLogger.log(`Retrying build on fallback provider '${fallback}'...`);
        buildParameters.providerStrategy = fallback;
        core.setOutput('providerFallbackUsed', 'true');
        core.setOutput('providerFallbackReason', `Primary provider failed: ${primaryError.message}`);
        return await Orchestrator.runWithProvider(buildParameters, baseImage);
      }
      throw primaryError;
    }
  }
  private static async runWithProvider(buildParameters: BuildParameters, baseImage: string) {
    await Orchestrator.setup(buildParameters);
    // When aws-local mode is enabled, validate AWS CloudFormation templates
@@ -189,12 +250,10 @@ class Orchestrator {
    if (Orchestrator.validateAwsTemplates) {
      await Orchestrator.validateAwsCloudFormationTemplates();
    }
-    await Orchestrator.Provider.setupWorkflow(
+
-      Orchestrator.buildParameters.buildGuid,
+    // Setup workflow with optional init timeout
-      Orchestrator.buildParameters,
+    await Orchestrator.setupWorkflowWithTimeout();
-      Orchestrator.buildParameters.branch,
+
      Orchestrator.defaultSecrets,
    );
    try {
      if (buildParameters.maxRetainedWorkspaces > 0) {
        Orchestrator.lockedWorkspace = SharedWorkspaceLocking.NewWorkspaceName();
@@ -275,6 +334,39 @@ class Orchestrator {
    }
  }
  /**
   * Runs setupWorkflow with an optional timeout. If providerInitTimeout is set and the
   * provider takes longer than that to initialize, throws an error that triggers
   * retry-on-fallback (if enabled).
   */
  private static async setupWorkflowWithTimeout() {
    const timeoutSeconds = Orchestrator.buildParameters.providerInitTimeout;
    const setupPromise = Orchestrator.Provider.setupWorkflow(
      Orchestrator.buildParameters.buildGuid,
      Orchestrator.buildParameters,
      Orchestrator.buildParameters.branch,
      Orchestrator.defaultSecrets,
    );
    if (timeoutSeconds <= 0) {
      await setupPromise;
      return;
    }
    OrchestratorLogger.log(`Provider init timeout: ${timeoutSeconds}s`);
    const timeoutPromise = new Promise<never>((_, reject) => {
      setTimeout(
        () => reject(new Error(`Provider initialization timed out after ${timeoutSeconds}s`)),
        timeoutSeconds * 1000,
      );
    });
    await Promise.race([setupPromise, timeoutPromise]);
  }
  private static async updateStatusWithBuildParameters() {
    const content = { ...Orchestrator.buildParameters };
    content.gitPrivateToken = ``;
--- a/src/model/orchestrator/services/core/runner-availability-service.test.ts
+++ b/src/model/orchestrator/services/core/runner-availability-service.test.ts
@@ -0,0 +1,318 @@
 import { RunnerAvailabilityService } from './runner-availability-service';
 // Mock @octokit/core
 jest.mock('@octokit/core', () => ({
  Octokit: jest.fn().mockImplementation(() => ({
    request: jest.fn(),
  })),
 }));
 jest.mock('./orchestrator-logger', () => ({
  __esModule: true,
  default: {
    log: jest.fn(),
    logWarning: jest.fn(),
    error: jest.fn(),
  },
 }));
 import { Octokit } from '@octokit/core';
 const MockedOctokit = Octokit as jest.MockedClass<typeof Octokit>;
 function createMockRunners(runners: Array<{ name: string; status: string; busy: boolean; labels: string[] }>) {
  return runners.map((r, i) => ({
    id: i + 1,
    name: r.name,
    status: r.status,
    busy: r.busy,
    labels: r.labels.map((l) => ({ name: l })),
  }));
 }
 describe('RunnerAvailabilityService', () => {
  beforeEach(() => {
    jest.clearAllMocks();
  });
  describe('checkAvailability', () => {
    it('should skip check and not fallback when no token is provided', async () => {
      const result = await RunnerAvailabilityService.checkAvailability('owner', 'repo', '', [], 1);
      expect(result.shouldFallback).toBe(false);
      expect(result.reason).toContain('No GitHub token');
    });
    it('should fallback when no runners are registered', async () => {
      const mockRequest = jest.fn().mockResolvedValue({ status: 200, data: { runners: [] } });
      MockedOctokit.mockImplementation(() => ({ request: mockRequest } as any));
      const result = await RunnerAvailabilityService.checkAvailability('owner', 'repo', 'token', [], 1);
      expect(result.shouldFallback).toBe(true);
      expect(result.reason).toContain('No runners registered');
      expect(result.totalRunners).toBe(0);
    });
    it('should not fallback when enough idle runners are available', async () => {
      const runners = createMockRunners([
        { name: 'runner-1', status: 'online', busy: false, labels: ['self-hosted', 'linux'] },
        { name: 'runner-2', status: 'online', busy: false, labels: ['self-hosted', 'linux'] },
      ]);
      const mockRequest = jest.fn().mockResolvedValue({ status: 200, data: { runners } });
      MockedOctokit.mockImplementation(() => ({ request: mockRequest } as any));
      const result = await RunnerAvailabilityService.checkAvailability('owner', 'repo', 'token', [], 1);
      expect(result.shouldFallback).toBe(false);
      expect(result.idleRunners).toBe(2);
      expect(result.totalRunners).toBe(2);
    });
    it('should fallback when all runners are busy', async () => {
      const runners = createMockRunners([
        { name: 'runner-1', status: 'online', busy: true, labels: ['self-hosted'] },
        { name: 'runner-2', status: 'online', busy: true, labels: ['self-hosted'] },
      ]);
      const mockRequest = jest.fn().mockResolvedValue({ status: 200, data: { runners } });
      MockedOctokit.mockImplementation(() => ({ request: mockRequest } as any));
      const result = await RunnerAvailabilityService.checkAvailability('owner', 'repo', 'token', [], 1);
      expect(result.shouldFallback).toBe(true);
      expect(result.idleRunners).toBe(0);
      expect(result.matchingRunners).toBe(2);
    });
    it('should fallback when all runners are offline', async () => {
      const runners = createMockRunners([
        { name: 'runner-1', status: 'offline', busy: false, labels: ['self-hosted'] },
      ]);
      const mockRequest = jest.fn().mockResolvedValue({ status: 200, data: { runners } });
      MockedOctokit.mockImplementation(() => ({ request: mockRequest } as any));
      const result = await RunnerAvailabilityService.checkAvailability('owner', 'repo', 'token', [], 1);
      expect(result.shouldFallback).toBe(true);
      expect(result.idleRunners).toBe(0);
    });
    it('should filter runners by required labels', async () => {
      const runners = createMockRunners([
        { name: 'linux-runner', status: 'online', busy: false, labels: ['self-hosted', 'linux'] },
        { name: 'windows-runner', status: 'online', busy: false, labels: ['self-hosted', 'windows'] },
      ]);
      const mockRequest = jest.fn().mockResolvedValue({ status: 200, data: { runners } });
      MockedOctokit.mockImplementation(() => ({ request: mockRequest } as any));
      const result = await RunnerAvailabilityService.checkAvailability(
        'owner',
        'repo',
        'token',
        ['self-hosted', 'linux'],
        1,
      );
      expect(result.shouldFallback).toBe(false);
      expect(result.matchingRunners).toBe(1);
      expect(result.idleRunners).toBe(1);
      expect(result.totalRunners).toBe(2);
    });
    it('should fallback when no runners match required labels', async () => {
      const runners = createMockRunners([
        { name: 'windows-runner', status: 'online', busy: false, labels: ['self-hosted', 'windows'] },
      ]);
      const mockRequest = jest.fn().mockResolvedValue({ status: 200, data: { runners } });
      MockedOctokit.mockImplementation(() => ({ request: mockRequest } as any));
      const result = await RunnerAvailabilityService.checkAvailability(
        'owner',
        'repo',
        'token',
        ['self-hosted', 'linux'],
        1,
      );
      expect(result.shouldFallback).toBe(true);
      expect(result.matchingRunners).toBe(0);
      expect(result.idleRunners).toBe(0);
    });
    it('should respect minAvailable threshold', async () => {
      const runners = createMockRunners([{ name: 'runner-1', status: 'online', busy: false, labels: ['self-hosted'] }]);
      const mockRequest = jest.fn().mockResolvedValue({ status: 200, data: { runners } });
      MockedOctokit.mockImplementation(() => ({ request: mockRequest } as any));
      // Need 2, have 1 — should fallback
      const result = await RunnerAvailabilityService.checkAvailability('owner', 'repo', 'token', [], 2);
      expect(result.shouldFallback).toBe(true);
      expect(result.idleRunners).toBe(1);
    });
    it('should be case-insensitive for label matching', async () => {
      const runners = createMockRunners([
        { name: 'runner-1', status: 'online', busy: false, labels: ['Self-Hosted', 'Linux'] },
      ]);
      const mockRequest = jest.fn().mockResolvedValue({ status: 200, data: { runners } });
      MockedOctokit.mockImplementation(() => ({ request: mockRequest } as any));
      const result = await RunnerAvailabilityService.checkAvailability(
        'owner',
        'repo',
        'token',
        ['self-hosted', 'linux'],
        1,
      );
      expect(result.shouldFallback).toBe(false);
      expect(result.matchingRunners).toBe(1);
    });
    it('should not fallback on API error (fail-open)', async () => {
      const mockRequest = jest.fn().mockRejectedValue(new Error('403 Forbidden'));
      MockedOctokit.mockImplementation(() => ({ request: mockRequest } as any));
      const result = await RunnerAvailabilityService.checkAvailability('owner', 'repo', 'token', [], 1);
      expect(result.shouldFallback).toBe(false);
      expect(result.reason).toContain('Runner check failed');
    });
    it('should count only online+idle runners', async () => {
      const runners = createMockRunners([
        { name: 'idle', status: 'online', busy: false, labels: ['self-hosted'] },
        { name: 'busy', status: 'online', busy: true, labels: ['self-hosted'] },
        { name: 'offline', status: 'offline', busy: false, labels: ['self-hosted'] },
      ]);
      const mockRequest = jest.fn().mockResolvedValue({ status: 200, data: { runners } });
      MockedOctokit.mockImplementation(() => ({ request: mockRequest } as any));
      const result = await RunnerAvailabilityService.checkAvailability('owner', 'repo', 'token', [], 1);
      expect(result.shouldFallback).toBe(false);
      expect(result.totalRunners).toBe(3);
      expect(result.matchingRunners).toBe(3);
      expect(result.idleRunners).toBe(1);
    });
  });
  describe('pagination limits', () => {
    it('should stop paginating after reaching the page limit', async () => {
      // Return full pages (100 runners each) to force continued pagination
      let callCount = 0;
      const mockRequest = jest.fn().mockImplementation(() => {
        callCount++;
        const runners = createMockRunners(
          Array.from({ length: 100 }, (_, i) => ({
            name: `runner-${callCount}-${i}`,
            status: 'online' as const,
            busy: false,
            labels: ['self-hosted'],
          })),
        );
        return Promise.resolve({ status: 200, data: { runners } });
      });
      MockedOctokit.mockImplementation(() => ({ request: mockRequest } as any));
      const result = await RunnerAvailabilityService.checkAvailability('owner', 'repo', 'token', [], 1);
      // Should have called at most 100 pages (the MAX_PAGINATION_PAGES limit)
      expect(mockRequest).toHaveBeenCalledTimes(100);
      // Should still have runners from the pages it did fetch
      expect(result.totalRunners).toBe(10000);
      expect(result.shouldFallback).toBe(false);
    });
    it('should stop paginating on rate limit (HTTP 403)', async () => {
      let callCount = 0;
      const mockRequest = jest.fn().mockImplementation(() => {
        callCount++;
        if (callCount === 2) {
          // Octokit throws for non-2xx responses
          const error: any = new Error('API rate limit exceeded');
          error.status = 403;
          error.response = {
            status: 403,
            headers: { 'x-ratelimit-reset': String(Math.floor(Date.now() / 1000) + 3600) },
          };
          return Promise.reject(error);
        }
        const runners = createMockRunners(
          Array.from({ length: 100 }, (_, i) => ({
            name: `runner-${i}`,
            status: 'online' as const,
            busy: false,
            labels: ['self-hosted'],
          })),
        );
        return Promise.resolve({ status: 200, data: { runners } });
      });
      MockedOctokit.mockImplementation(() => ({ request: mockRequest } as any));
      const result = await RunnerAvailabilityService.checkAvailability('owner', 'repo', 'token', [], 1);
      // Should have stopped at page 2 (rate limited)
      expect(mockRequest).toHaveBeenCalledTimes(2);
      // Should use the 100 runners from the first page
      expect(result.totalRunners).toBe(100);
      expect(result.shouldFallback).toBe(false);
    });
    it('should stop paginating on rate limit (HTTP 429)', async () => {
      let callCount = 0;
      const mockRequest = jest.fn().mockImplementation(() => {
        callCount++;
        if (callCount === 1) {
          // Octokit throws for non-2xx responses
          const error: any = new Error('Too Many Requests');
          error.status = 429;
          error.response = { status: 429, headers: {} };
          return Promise.reject(error);
        }
        return Promise.resolve({ status: 200, data: { runners: [] } });
      });
      MockedOctokit.mockImplementation(() => ({ request: mockRequest } as any));
      const result = await RunnerAvailabilityService.checkAvailability('owner', 'repo', 'token', [], 1);
      // Should have stopped at first page (rate limited immediately)
      expect(mockRequest).toHaveBeenCalledTimes(1);
      // No runners found — should fallback
      expect(result.totalRunners).toBe(0);
      expect(result.shouldFallback).toBe(true);
    });
    it('should handle pagination timeout gracefully', async () => {
      // Mock Date.now to simulate timeout
      const originalDateNow = Date.now;
      let callCount = 0;
      const mockRequest = jest.fn().mockImplementation(() => {
        callCount++;
        // After first call, advance time past the timeout
        if (callCount >= 2) {
          Date.now = jest.fn(() => originalDateNow() + 31_000);
        }
        const runners = createMockRunners(
          Array.from({ length: 100 }, (_, i) => ({
            name: `runner-${callCount}-${i}`,
            status: 'online' as const,
            busy: false,
            labels: ['self-hosted'],
          })),
        );
        return Promise.resolve({ status: 200, data: { runners } });
      });
      MockedOctokit.mockImplementation(() => ({ request: mockRequest } as any));
      const result = await RunnerAvailabilityService.checkAvailability('owner', 'repo', 'token', [], 1);
      // Should have stopped after timeout was detected (2 pages: first succeeds, second triggers timeout check)
      expect(mockRequest.mock.calls.length).toBeLessThanOrEqual(3);
      // Should have runners from pages fetched before timeout
      expect(result.totalRunners).toBeGreaterThan(0);
      // Restore
      Date.now = originalDateNow;
    });
  });
 });
--- a/src/model/orchestrator/services/core/runner-availability-service.ts
+++ b/src/model/orchestrator/services/core/runner-availability-service.ts
@@ -0,0 +1,205 @@
 import { Octokit } from '@octokit/core';
 import OrchestratorLogger from './orchestrator-logger';
 interface GitHubRunner {
  id: number;
  name: string;
  status: 'online' | 'offline';
  busy: boolean;
  labels: Array<{ name: string }>;
 }
 interface RunnerCheckResult {
  shouldFallback: boolean;
  reason: string;
  totalRunners: number;
  matchingRunners: number;
  idleRunners: number;
 }
 /**
 * Maximum number of pages to fetch when paginating through GitHub API results.
 * 100 pages * 100 per page = 10,000 runners maximum.
 */
 const MAX_PAGINATION_PAGES = 100;
 /**
 * Total timeout in milliseconds for the pagination loop.
 * Prevents indefinite API calls if GitHub is slow or pagination is unexpectedly deep.
 */
 const PAGINATION_TIMEOUT_MS = 30_000;
 /**
 * Checks GitHub Actions runner availability to support automatic provider fallback.
 *
 * When a user configures `runnerCheckEnabled: true` with a `fallbackProviderStrategy`,
 * this service queries the GitHub API for runner status before the build starts.
 * If insufficient runners are available, the orchestrator routes to the fallback provider.
 */
 export class RunnerAvailabilityService {
  /**
   * Check if enough runners are available to handle the build.
   *
   * @param owner - GitHub repository owner
   * @param repo - GitHub repository name
   * @param token - GitHub token with repo/actions scope
   * @param requiredLabels - Labels runners must have (empty = any runner)
   * @param minAvailable - Minimum idle runners required
   * @returns RunnerCheckResult with decision and diagnostics
   */
  static async checkAvailability(
    owner: string,
    repo: string,
    token: string,
    requiredLabels: string[],
    minAvailable: number,
  ): Promise<RunnerCheckResult> {
    if (!token) {
      return {
        shouldFallback: false,
        reason: 'No GitHub token available — skipping runner check',
        totalRunners: 0,
        matchingRunners: 0,
        idleRunners: 0,
      };
    }
    try {
      const octokit = new Octokit({ auth: token });
      // Fetch all runners for the repository
      const runners = await RunnerAvailabilityService.fetchRunners(octokit, owner, repo);
      if (runners.length === 0) {
        return {
          shouldFallback: true,
          reason: 'No runners registered for this repository',
          totalRunners: 0,
          matchingRunners: 0,
          idleRunners: 0,
        };
      }
      // Filter by required labels
      const matching = RunnerAvailabilityService.filterByLabels(runners, requiredLabels);
      // Count idle (online + not busy)
      const idle = matching.filter((r) => r.status === 'online' && !r.busy);
      const result: RunnerCheckResult = {
        shouldFallback: idle.length < minAvailable,
        reason:
          idle.length >= minAvailable
            ? `${idle.length} idle runner(s) available (need ${minAvailable})`
            : `Only ${idle.length} idle runner(s) available, need ${minAvailable}`,
        totalRunners: runners.length,
        matchingRunners: matching.length,
        idleRunners: idle.length,
      };
      return result;
    } catch (error: any) {
      // If the API call fails (permissions, rate limit, etc.), don't block the build
      OrchestratorLogger.log(`Runner availability check failed: ${error.message}`);
      return {
        shouldFallback: false,
        reason: `Runner check failed (${error.message}) — proceeding with primary provider`,
        totalRunners: 0,
        matchingRunners: 0,
        idleRunners: 0,
      };
    }
  }
  /**
   * Fetch all runners for a repository, handling pagination.
   *
   * Includes defensive limits:
   * - Maximum page count (MAX_PAGINATION_PAGES) to prevent infinite loops
   * - Total timeout (PAGINATION_TIMEOUT_MS) to prevent indefinite API calls
   * - Rate-limit detection (HTTP 403/429 with X-RateLimit-Remaining header)
   */
  private static async fetchRunners(octokit: Octokit, owner: string, repo: string): Promise<GitHubRunner[]> {
    const allRunners: GitHubRunner[] = [];
    let page = 1;
    const perPage = 100;
    const startTime = Date.now();
    while (page <= MAX_PAGINATION_PAGES) {
      // Check total timeout
      if (Date.now() - startTime > PAGINATION_TIMEOUT_MS) {
        OrchestratorLogger.logWarning(
          `[RunnerAvailability] Pagination timeout reached after ${page - 1} pages and ${Date.now() - startTime}ms. ` +
            `Using ${allRunners.length} runners found so far.`,
        );
        break;
      }
      let response: any;
      try {
        response = await octokit.request('GET /repos/{owner}/{repo}/actions/runners', {
          owner,
          repo,
          per_page: perPage,
          page,
        });
      } catch (requestError: any) {
        // Octokit throws for non-2xx responses. Check if this is a rate limit error.
        const status = requestError.status ?? requestError.response?.status;
        if (status === 403 || status === 429) {
          const resetTime =
            requestError.response?.headers?.['x-ratelimit-reset'] ?? requestError.headers?.['x-ratelimit-reset'];
          const resetMessage = resetTime
            ? ` Resets at ${new Date(Number.parseInt(String(resetTime), 10) * 1000).toISOString()}`
            : '';
          OrchestratorLogger.logWarning(
            `[RunnerAvailability] GitHub API rate limit reached (HTTP ${status}).${resetMessage} ` +
              `Using ${allRunners.length} runners found so far.`,
          );
          break;
        }
        // Re-throw non-rate-limit errors to be handled by the outer catch
        throw requestError;
      }
      const runners = (response.data.runners || []) as GitHubRunner[];
      allRunners.push(...runners);
      if (runners.length < perPage) break;
      page++;
    }
    if (page > MAX_PAGINATION_PAGES) {
      OrchestratorLogger.logWarning(
        `[RunnerAvailability] Maximum pagination limit reached (${MAX_PAGINATION_PAGES} pages). ` +
          `Using ${allRunners.length} runners found so far.`,
      );
    }
    if (allRunners.length === 0) {
      OrchestratorLogger.log(
        '[RunnerAvailability] No runners found. Possible causes: ' +
          'wrong token permissions (needs repo or actions scope), ' +
          'no self-hosted runners registered, ' +
          'or runners are registered at the organization level instead of the repository.',
      );
    }
    return allRunners;
  }
  /**
   * Filter runners by required labels. A runner matches if it has ALL required labels.
   * If requiredLabels is empty, all runners match.
   */
  private static filterByLabels(runners: GitHubRunner[], requiredLabels: string[]): GitHubRunner[] {
    if (requiredLabels.length === 0) return runners;
    return runners.filter((runner) => {
      const runnerLabelNames = runner.labels.map((l) => l.name.toLowerCase());
      return requiredLabels.every((required) => runnerLabelNames.includes(required.toLowerCase()));
    });
  }
 }
--- a/src/model/orchestrator/services/test-workflow/index.ts
+++ b/src/model/orchestrator/services/test-workflow/index.ts
@@ -1,12 +0,0 @@
 export { TestSuiteParser } from './test-suite-parser';
 export { TaxonomyFilterService } from './taxonomy-filter-service';
 export { TestResultReporter } from './test-result-reporter';
 export { TestWorkflowService } from './test-workflow-service';
 export {
  TestSuiteDefinition,
  TestRunDefinition,
  TaxonomyDimension,
  TaxonomyDefinition,
  TestResult,
  TestFailure,
 } from './test-workflow-types';
--- a/src/model/orchestrator/services/test-workflow/taxonomy-filter-service.ts
+++ b/src/model/orchestrator/services/test-workflow/taxonomy-filter-service.ts
@@ -1,198 +0,0 @@
 import fs from 'node:fs';
 import YAML from 'yaml';
 import { TaxonomyDimension, TaxonomyDefinition } from './test-workflow-types';
 /**
 * Manages test taxonomy dimensions and builds filter arguments for
 * the Unity test runner CLI. Supports comma-separated value lists,
 * regex patterns (/pattern/), and hierarchical dot-notation matching.
 */
 export class TaxonomyFilterService {
  /**
   * Built-in taxonomy dimensions that are always available.
   * Projects may extend these via a custom taxonomy file.
   */
  private static readonly BUILT_IN_DIMENSIONS: TaxonomyDimension[] = [
    { name: 'Scope', values: ['Unit', 'Integration', 'System', 'End To End'] },
    { name: 'Maturity', values: ['Trusted', 'Adolescent', 'Experimental'] },
    { name: 'FeedbackSpeed', values: ['Fast', 'Moderate', 'Slow'] },
    { name: 'Execution', values: ['Synchronous', 'Asynchronous', 'Coroutine'] },
    { name: 'Rigor', values: ['Strict', 'Normal', 'Relaxed'] },
    { name: 'Determinism', values: ['Deterministic', 'NonDeterministic'] },
    { name: 'IsolationLevel', values: ['Full', 'Partial', 'None'] },
  ];
  /**
   * Load taxonomy dimensions: built-in dimensions plus any custom dimensions
   * from an optional taxonomy file.
   */
  static loadTaxonomy(filePath?: string): TaxonomyDimension[] {
    const dimensions = [...TaxonomyFilterService.BUILT_IN_DIMENSIONS];
    if (filePath && fs.existsSync(filePath)) {
      const content = fs.readFileSync(filePath, 'utf8');
      const parsed = YAML.parse(content) as TaxonomyDefinition;
      if (parsed?.extensible_groups && Array.isArray(parsed.extensible_groups)) {
        for (const group of parsed.extensible_groups) {
          if (group.name && Array.isArray(group.values)) {
            // If a custom dimension has the same name as a built-in, merge values
            const existing = dimensions.find((d) => d.name === group.name);
            if (existing) {
              const existingValues = new Set(existing.values);
              for (const value of group.values) {
                if (!existingValues.has(value)) {
                  existing.values.push(value);
                }
              }
            } else {
              dimensions.push({ name: group.name, values: [...group.values] });
            }
          }
        }
      }
    }
    return dimensions;
  }
  /**
   * Convert a filter map to Unity test runner CLI args (--testFilter).
   *
   * Each filter dimension becomes a category expression. Multiple values in one
   * dimension are OR'd; multiple dimensions are AND'd. The result is a single
   * --testFilter string suitable for passing to Unity's test runner CLI.
   *
   * Regex patterns (values wrapped in /.../) are converted to category regex
   * expressions supported by the Unity test runner.
   */
  static buildFilterArgs(filters: Record<string, string>): string {
    if (!filters || Object.keys(filters).length === 0) {
      return '';
    }
    const categoryExpressions: string[] = [];
    for (const [dimension, valueSpec] of Object.entries(filters)) {
      const expression = TaxonomyFilterService.buildDimensionExpression(dimension, valueSpec);
      if (expression) {
        categoryExpressions.push(expression);
      }
    }
    if (categoryExpressions.length === 0) {
      return '';
    }
    // Unity test runner uses --testFilter with category expressions
    // Multiple dimensions are AND'd by joining with ';'
    const filterString = categoryExpressions.join(';');
    return `--testFilter "${filterString}"`;
  }
  /**
   * Build a filter expression for a single taxonomy dimension.
   */
  private static buildDimensionExpression(dimension: string, valueSpec: string): string {
    if (!valueSpec || valueSpec.trim() === '') {
      return '';
    }
    const trimmed = valueSpec.trim();
    // Check if the value is a regex pattern: /pattern/
    if (trimmed.startsWith('/') && trimmed.endsWith('/') && trimmed.length > 2) {
      const pattern = trimmed.slice(1, -1);
      return `${dimension}=~${pattern}`;
    }
    // Comma-separated values: OR'd together
    const values = trimmed
      .split(',')
      .map((v) => v.trim())
      .filter((v) => v.length > 0);
    if (values.length === 0) {
      return '';
    }
    if (values.length === 1) {
      return `${dimension}=${values[0]}`;
    }
    // Multiple values: use pipe-separated OR syntax
    return `${dimension}=${values.join('|')}`;
  }
  /**
   * Check if a test's taxonomy metadata matches the given filter criteria.
   *
   * A test matches if ALL filter dimensions match (AND across dimensions).
   * Within a single dimension, the test must match ANY of the specified values (OR).
   * Regex patterns are matched as regular expressions.
   * Hierarchical dot-notation supports prefix matching (e.g., filter "Combat.Melee"
   * matches test category "Combat.Melee.Sword").
   */
  static matchesFilter(testCategories: Record<string, string>, filters: Record<string, string>): boolean {
    for (const [dimension, valueSpec] of Object.entries(filters)) {
      const testValue = testCategories[dimension];
      // If the test has no value for this dimension, it does not match
      if (testValue === undefined || testValue === null) {
        return false;
      }
      if (!TaxonomyFilterService.matchesDimensionFilter(testValue, valueSpec)) {
        return false;
      }
    }
    return true;
  }
  /**
   * Check if a single test category value matches a dimension filter spec.
   */
  private static matchesDimensionFilter(testValue: string, valueSpec: string): boolean {
    const trimmed = valueSpec.trim();
    // Regex pattern
    if (trimmed.startsWith('/') && trimmed.endsWith('/') && trimmed.length > 2) {
      const pattern = trimmed.slice(1, -1);
      try {
        const regex = new RegExp(pattern);
        return regex.test(testValue);
      } catch {
        // Invalid regex, treat as literal
        return testValue === trimmed;
      }
    }
    // Comma-separated values
    const values = trimmed
      .split(',')
      .map((v) => v.trim())
      .filter((v) => v.length > 0);
    return values.some((filterValue) => {
      // Exact match
      if (testValue === filterValue) {
        return true;
      }
      // Hierarchical dot-notation prefix match
      // Filter "Combat.Melee" matches test "Combat.Melee" and "Combat.Melee.Sword"
      if (filterValue.includes('.') || testValue.includes('.')) {
        if (testValue.startsWith(filterValue + '.') || testValue === filterValue) {
          return true;
        }
        // Also allow the test to be a prefix of the filter for upward matching
        if (filterValue.startsWith(testValue + '.')) {
          return true;
        }
      }
      return false;
    });
  }
 }
--- a/src/model/orchestrator/services/test-workflow/test-result-reporter.ts
+++ b/src/model/orchestrator/services/test-workflow/test-result-reporter.ts
@@ -1,316 +0,0 @@
 import fs from 'node:fs';
 import path from 'node:path';
 import { TestResult, TestFailure } from './test-workflow-types';
 /**
 * Parses test result files (JUnit XML, Unity JSON) and generates structured
 * summary reports. Supports writing results in multiple formats for CI
 * integration (GitHub Checks, artifact upload).
 */
 export class TestResultReporter {
  /**
   * Parse a JUnit XML test result file into a TestResult.
   * JUnit XML is the standard format produced by Unity's test runner.
   */
  static parseJUnitResults(xmlPath: string): TestResult {
    if (!fs.existsSync(xmlPath)) {
      throw new Error(`JUnit result file not found: ${xmlPath}`);
    }
    const content = fs.readFileSync(xmlPath, 'utf8');
    return TestResultReporter.parseJUnitXml(content);
  }
  /**
   * Parse JUnit XML content string into a TestResult.
   */
  static parseJUnitXml(xmlContent: string): TestResult {
    // Extract the testsuite opening tag
    const suiteTagMatch = xmlContent.match(/<testsuite\s[^>]*>/);
    let runName = 'unknown';
    let totalTests = 0;
    let failureCount = 0;
    let skippedCount = 0;
    let duration = 0;
    if (suiteTagMatch) {
      const tag = suiteTagMatch[0];
      // Extract individual attributes -- order-independent
      const nameMatch = tag.match(/\sname="([^"]*)"/);
      const testsMatch = tag.match(/\stests="(\d+)"/);
      const failuresMatch = tag.match(/\sfailures="(\d+)"/);
      const skippedMatch = tag.match(/\sskipped="(\d+)"/);
      const timeMatch = tag.match(/\stime="([^"]*)"/);
      runName = nameMatch ? nameMatch[1] : 'unknown';
      totalTests = testsMatch ? Number.parseInt(testsMatch[1], 10) : 0;
      failureCount = failuresMatch ? Number.parseInt(failuresMatch[1], 10) : 0;
      skippedCount = skippedMatch ? Number.parseInt(skippedMatch[1], 10) : 0;
      duration = timeMatch ? Number.parseFloat(timeMatch[1]) : 0;
    }
    // Extract individual test failures by splitting into testcase blocks
    const failures: TestFailure[] = [];
    const testcasePattern = /<testcase\s[^>]*>[\s\S]*?<\/testcase>/g;
    let tcMatch;
    while ((tcMatch = testcasePattern.exec(xmlContent)) !== null) {
      const block = tcMatch[0];
      // Only process testcases that contain a <failure> element
      if (!block.includes('<failure')) {
        continue;
      }
      // Extract testcase attributes (order-independent)
      const tcTag = block.match(/<testcase\s[^>]*>/);
      if (!tcTag) continue;
      const cnMatch = tcTag[0].match(/\sclassname="([^"]*)"/);
      const tnMatch = tcTag[0].match(/\sname="([^"]*)"/);
      const className = cnMatch ? cnMatch[1] : 'unknown';
      const testName = tnMatch ? tnMatch[1] : 'unknown';
      // Extract failure message
      const failTag = block.match(/<failure\s[^>]*>/);
      const msgMatch = failTag ? failTag[0].match(/\smessage="([^"]*)"/) : null;
      const message = msgMatch ? msgMatch[1] : 'Test failed';
      // Extract stack trace from CDATA or text content
      const cdataMatch = block.match(/<failure[^>]*>[\s\S]*?<!\[CDATA\[([\s\S]*?)\]\]>/);
      const textMatch = !cdataMatch ? block.match(/<failure[^>]*>([^<]*)<\/failure>/) : null;
      const stackTrace = cdataMatch ? cdataMatch[1].trim() : textMatch ? textMatch[1].trim() : undefined;
      failures.push({ testName, className, message, stackTrace: stackTrace || undefined });
    }
    const passed = totalTests - failureCount - skippedCount;
    return {
      runName,
      passed: Math.max(0, passed),
      failed: failureCount,
      skipped: skippedCount,
      duration,
      failures,
    };
  }
  /**
   * Parse a Unity JSON test result file into a TestResult.
   */
  static parseJsonResults(jsonPath: string): TestResult {
    if (!fs.existsSync(jsonPath)) {
      throw new Error(`JSON result file not found: ${jsonPath}`);
    }
    const content = fs.readFileSync(jsonPath, 'utf8');
    const data = JSON.parse(content);
    return TestResultReporter.parseJsonData(data);
  }
  /**
   * Parse Unity JSON test result data into a TestResult.
   */
  static parseJsonData(data: any): TestResult {
    const runName = data.name ?? data.suiteName ?? 'unknown';
    const passed = data.passed ?? data.passCount ?? 0;
    const failed = data.failed ?? data.failCount ?? 0;
    const skipped = data.skipped ?? data.skipCount ?? data.inconclusive ?? 0;
    const duration = data.duration ?? data.time ?? 0;
    const failures: TestFailure[] = [];
    // Unity test results may have a 'testResults' or 'results' array
    const results = data.testResults ?? data.results ?? data.children ?? [];
    if (Array.isArray(results)) {
      for (const result of results) {
        TestResultReporter.extractFailures(result, failures);
      }
    }
    return {
      runName,
      passed,
      failed,
      skipped,
      duration,
      failures,
    };
  }
  /**
   * Recursively extract failures from nested Unity test result JSON.
   */
  private static extractFailures(node: any, failures: TestFailure[]): void {
    if (!node) return;
    const status = (node.result ?? node.status ?? '').toLowerCase();
    if (status === 'failed' || status === 'failure') {
      failures.push({
        testName: node.name ?? node.testName ?? 'unknown',
        className: node.className ?? node.fullName ?? node.name ?? 'unknown',
        message: node.message ?? node.output ?? 'Test failed',
        stackTrace: node.stackTrace ?? node.trace ?? undefined,
      });
    }
    // Recurse into children (Unity nests test fixtures inside suites)
    const children = node.children ?? node.testResults ?? node.results ?? [];
    if (Array.isArray(children)) {
      for (const child of children) {
        TestResultReporter.extractFailures(child, failures);
      }
    }
  }
  /**
   * Generate a markdown summary table from an array of test results.
   */
  static generateSummary(results: TestResult[]): string {
    if (results.length === 0) {
      return 'No test results available.';
    }
    const lines: string[] = [];
    lines.push('## Test Results Summary');
    lines.push('');
    lines.push('| Run | Passed | Failed | Skipped | Duration |');
    lines.push('|-----|--------|--------|---------|----------|');
    let totalPassed = 0;
    let totalFailed = 0;
    let totalSkipped = 0;
    let totalDuration = 0;
    for (const result of results) {
      const status = result.failed > 0 ? 'X' : 'OK';
      const durationStr = TestResultReporter.formatDuration(result.duration);
      lines.push(
        `| ${status} ${result.runName} | ${result.passed} | ${result.failed} | ${result.skipped} | ${durationStr} |`,
      );
      totalPassed += result.passed;
      totalFailed += result.failed;
      totalSkipped += result.skipped;
      totalDuration += result.duration;
    }
    lines.push(
      `| **Total** | **${totalPassed}** | **${totalFailed}** | **${totalSkipped}** | **${TestResultReporter.formatDuration(
        totalDuration,
      )}** |`,
    );
    lines.push('');
    // Append failure details if any
    const allFailures = results.flatMap((r) => r.failures.map((f) => ({ ...f, run: r.runName })));
    if (allFailures.length > 0) {
      lines.push('### Failures');
      lines.push('');
      for (const failure of allFailures) {
        lines.push(`**${failure.run}** - \`${failure.className}.${failure.testName}\``);
        lines.push(`> ${failure.message}`);
        if (failure.stackTrace) {
          lines.push('```');
          lines.push(failure.stackTrace.slice(0, 500));
          lines.push('```');
        }
        lines.push('');
      }
    }
    return lines.join('\n');
  }
  /**
   * Write test results to the output path in the specified format(s).
   */
  static writeResults(results: TestResult[], outputPath: string, format: 'junit' | 'json' | 'both'): void {
    if (!fs.existsSync(outputPath)) {
      fs.mkdirSync(outputPath, { recursive: true });
    }
    if (format === 'json' || format === 'both') {
      const jsonPath = path.join(outputPath, 'test-results.json');
      fs.writeFileSync(jsonPath, JSON.stringify(results, null, 2), 'utf8');
    }
    if (format === 'junit' || format === 'both') {
      const junitPath = path.join(outputPath, 'test-results.xml');
      const xml = TestResultReporter.toJUnitXml(results);
      fs.writeFileSync(junitPath, xml, 'utf8');
    }
    // Always write markdown summary
    const summaryPath = path.join(outputPath, 'test-summary.md');
    const summary = TestResultReporter.generateSummary(results);
    fs.writeFileSync(summaryPath, summary, 'utf8');
  }
  /**
   * Convert TestResult array to JUnit XML format.
   */
  private static toJUnitXml(results: TestResult[]): string {
    const lines: string[] = [];
    lines.push('<?xml version="1.0" encoding="UTF-8"?>');
    lines.push('<testsuites>');
    for (const result of results) {
      const total = result.passed + result.failed + result.skipped;
      lines.push(
        `  <testsuite name="${TestResultReporter.escapeXml(result.runName)}" tests="${total}" failures="${
          result.failed
        }" skipped="${result.skipped}" time="${result.duration.toFixed(3)}">`,
      );
      // Write failure test cases
      for (const failure of result.failures) {
        lines.push(
          `    <testcase classname="${TestResultReporter.escapeXml(
            failure.className,
          )}" name="${TestResultReporter.escapeXml(failure.testName)}">`,
        );
        lines.push(`      <failure message="${TestResultReporter.escapeXml(failure.message)}">`);
        if (failure.stackTrace) {
          lines.push(`        <![CDATA[${failure.stackTrace}]]>`);
        }
        lines.push('      </failure>');
        lines.push('    </testcase>');
      }
      lines.push('  </testsuite>');
    }
    lines.push('</testsuites>');
    return lines.join('\n');
  }
  /**
   * Escape special XML characters.
   */
  private static escapeXml(str: string): string {
    return str
      .replace(/&/g, '&amp;')
      .replace(/</g, '&lt;')
      .replace(/>/g, '&gt;')
      .replace(/"/g, '&quot;')
      .replace(/'/g, '&apos;');
  }
  /**
   * Format a duration in seconds to a human-readable string.
   */
  private static formatDuration(seconds: number): string {
    if (seconds < 60) {
      return `${seconds.toFixed(1)}s`;
    }
    const minutes = Math.floor(seconds / 60);
    const remainingSeconds = seconds % 60;
    return `${minutes}m ${remainingSeconds.toFixed(0)}s`;
  }
 }
--- a/src/model/orchestrator/services/test-workflow/test-suite-parser.ts
+++ b/src/model/orchestrator/services/test-workflow/test-suite-parser.ts
@@ -1,263 +0,0 @@
 import fs from 'node:fs';
 import YAML from 'yaml';
 import { TestSuiteDefinition, TestRunDefinition } from './test-workflow-types';
 /**
 * Parses and validates YAML-based test suite definition files.
 * Handles dependency resolution (topological sort) for ordered test run execution.
 */
 export class TestSuiteParser {
  /**
   * Read and parse a YAML test suite definition file.
   * Validates the structure and returns a typed TestSuiteDefinition.
   */
  static parseSuiteFile(filePath: string): TestSuiteDefinition {
    if (!fs.existsSync(filePath)) {
      throw new Error(`Test suite file not found: ${filePath}`);
    }
    const content = fs.readFileSync(filePath, 'utf8');
    const parsed = YAML.parse(content);
    if (!parsed || typeof parsed !== 'object') {
      throw new Error(`Invalid YAML in test suite file: ${filePath}`);
    }
    if (!parsed.name || typeof parsed.name !== 'string') {
      throw new Error(`Test suite must have a 'name' field (string): ${filePath}`);
    }
    if (!Array.isArray(parsed.runs) || parsed.runs.length === 0) {
      throw new Error(`Test suite must have a non-empty 'runs' array: ${filePath}`);
    }
    const suite: TestSuiteDefinition = {
      name: parsed.name,
      description: parsed.description,
      runs: parsed.runs.map((run: any) => TestSuiteParser.parseRun(run)),
    };
    const errors = TestSuiteParser.validateSuite(suite);
    if (errors.length > 0) {
      throw new Error(`Test suite validation failed:\n  ${errors.join('\n  ')}`);
    }
    return suite;
  }
  /**
   * Parse a single run definition from raw YAML data.
   */
  private static parseRun(raw: any): TestRunDefinition {
    if (!raw || typeof raw !== 'object') {
      throw new Error(`Each run must be an object`);
    }
    if (!raw.name || typeof raw.name !== 'string') {
      throw new Error(`Each run must have a 'name' field (string)`);
    }
    const run: TestRunDefinition = {
      name: raw.name,
    };
    if (raw.needs !== undefined) {
      if (!Array.isArray(raw.needs)) {
        throw new Error(`Run '${raw.name}': 'needs' must be an array of strings`);
      }
      run.needs = raw.needs;
    }
    if (raw.editMode !== undefined) {
      run.editMode = Boolean(raw.editMode);
    }
    if (raw.playMode !== undefined) {
      run.playMode = Boolean(raw.playMode);
    }
    if (raw.builtClient !== undefined) {
      run.builtClient = Boolean(raw.builtClient);
    }
    if (raw.builtClientPath !== undefined) {
      run.builtClientPath = String(raw.builtClientPath);
    }
    if (raw.filters !== undefined) {
      if (typeof raw.filters !== 'object' || Array.isArray(raw.filters)) {
        throw new Error(`Run '${raw.name}': 'filters' must be a key-value object`);
      }
      run.filters = {};
      for (const [key, value] of Object.entries(raw.filters)) {
        run.filters[key] = String(value);
      }
    }
    if (raw.timeout !== undefined) {
      const timeout = Number(raw.timeout);
      if (Number.isNaN(timeout) || timeout <= 0) {
        throw new Error(`Run '${raw.name}': 'timeout' must be a positive number`);
      }
      run.timeout = timeout;
    }
    return run;
  }
  /**
   * Resolve run execution order via topological sort based on 'needs' dependencies.
   * Returns an array of parallel groups -- each group contains runs that can execute concurrently.
   * Runs within the same group have no inter-dependencies.
   */
  static resolveRunOrder(suite: TestSuiteDefinition): TestRunDefinition[][] {
    const runMap = new Map<string, TestRunDefinition>();
    for (const run of suite.runs) {
      runMap.set(run.name, run);
    }
    // Build adjacency: inDegree counts and dependents map
    const inDegree = new Map<string, number>();
    const dependents = new Map<string, string[]>();
    for (const run of suite.runs) {
      if (!inDegree.has(run.name)) {
        inDegree.set(run.name, 0);
      }
      if (!dependents.has(run.name)) {
        dependents.set(run.name, []);
      }
      if (run.needs) {
        for (const dep of run.needs) {
          inDegree.set(run.name, (inDegree.get(run.name) ?? 0) + 1);
          if (!dependents.has(dep)) {
            dependents.set(dep, []);
          }
          dependents.get(dep)!.push(run.name);
        }
      }
    }
    // Kahn's algorithm producing parallel layers
    const groups: TestRunDefinition[][] = [];
    let ready = suite.runs.filter((r) => (inDegree.get(r.name) ?? 0) === 0);
    let processed = 0;
    while (ready.length > 0) {
      groups.push(ready);
      processed += ready.length;
      const nextReady: TestRunDefinition[] = [];
      for (const run of ready) {
        for (const dep of dependents.get(run.name) ?? []) {
          const newDegree = (inDegree.get(dep) ?? 1) - 1;
          inDegree.set(dep, newDegree);
          if (newDegree === 0) {
            nextReady.push(runMap.get(dep)!);
          }
        }
      }
      ready = nextReady;
    }
    if (processed !== suite.runs.length) {
      throw new Error(`Circular dependency detected in test suite '${suite.name}'`);
    }
    return groups;
  }
  /**
   * Validate a parsed test suite definition.
   * Returns an array of validation error messages (empty = valid).
   */
  static validateSuite(suite: TestSuiteDefinition): string[] {
    const errors: string[] = [];
    const runNames = new Set<string>();
    // Check for duplicate run names
    for (const run of suite.runs) {
      if (runNames.has(run.name)) {
        errors.push(`Duplicate run name: '${run.name}'`);
      }
      runNames.add(run.name);
    }
    // Check that all 'needs' references exist
    for (const run of suite.runs) {
      if (run.needs) {
        for (const dep of run.needs) {
          if (!runNames.has(dep)) {
            errors.push(`Run '${run.name}' depends on unknown run '${dep}'`);
          }
        }
        // Self-dependency
        if (run.needs.includes(run.name)) {
          errors.push(`Run '${run.name}' depends on itself`);
        }
      }
    }
    // Check that at least one test mode is specified per run
    for (const run of suite.runs) {
      if (!run.editMode && !run.playMode && !run.builtClient) {
        errors.push(`Run '${run.name}' must specify at least one of: editMode, playMode, builtClient`);
      }
    }
    // Detect circular dependencies via DFS
    const circularError = TestSuiteParser.detectCircularDependencies(suite);
    if (circularError) {
      errors.push(circularError);
    }
    return errors;
  }
  /**
   * Detect circular dependencies using DFS cycle detection.
   */
  private static detectCircularDependencies(suite: TestSuiteDefinition): string | null {
    const adjacency = new Map<string, string[]>();
    for (const run of suite.runs) {
      adjacency.set(run.name, run.needs ?? []);
    }
    const visited = new Set<string>();
    const visiting = new Set<string>();
    const dfs = (node: string, path: string[]): string | null => {
      if (visiting.has(node)) {
        const cycleStart = path.indexOf(node);
        const cycle = path.slice(cycleStart).concat(node);
        return `Circular dependency: ${cycle.join(' -> ')}`;
      }
      if (visited.has(node)) {
        return null;
      }
      visiting.add(node);
      path.push(node);
      for (const dep of adjacency.get(node) ?? []) {
        if (adjacency.has(dep)) {
          const result = dfs(dep, [...path]);
          if (result) return result;
        }
      }
      visiting.delete(node);
      visited.add(node);
      return null;
    };
    for (const run of suite.runs) {
      const result = dfs(run.name, []);
      if (result) return result;
    }
    return null;
  }
 }
--- a/src/model/orchestrator/services/test-workflow/test-workflow-service.ts
+++ b/src/model/orchestrator/services/test-workflow/test-workflow-service.ts
@@ -1,246 +0,0 @@
 import { exec } from 'node:child_process';
 import { promisify } from 'node:util';
 import path from 'node:path';
 import * as core from '@actions/core';
 import BuildParameters from '../../../build-parameters';
 import { TestSuiteParser } from './test-suite-parser';
 import { TaxonomyFilterService } from './taxonomy-filter-service';
 import { TestResultReporter } from './test-result-reporter';
 import { TestRunDefinition, TestResult } from './test-workflow-types';
 const execAsync = promisify(exec);
 /**
 * Main entry point for the test workflow engine.
 * Orchestrates parsing of YAML suite definitions, resolving run order,
 * executing test runs via Unity CLI, and collecting structured results.
 */
 export class TestWorkflowService {
  /**
   * Execute a full test suite from a YAML definition file.
   * Parses the suite, resolves dependency order, executes each parallel
   * group sequentially (runs within a group execute concurrently), and
   * collects all results.
   */
  static async executeTestSuite(suitePath: string, parameters: BuildParameters): Promise<TestResult[]> {
    core.info(`[TestWorkflow] Loading test suite from: ${suitePath}`);
    const suite = TestSuiteParser.parseSuiteFile(suitePath);
    core.info(`[TestWorkflow] Suite '${suite.name}' loaded with ${suite.runs.length} run(s)`);
    if (suite.description) {
      core.info(`[TestWorkflow] Description: ${suite.description}`);
    }
    const groups = TestSuiteParser.resolveRunOrder(suite);
    core.info(`[TestWorkflow] Resolved into ${groups.length} execution group(s)`);
    const allResults: TestResult[] = [];
    let groupIndex = 0;
    for (const group of groups) {
      groupIndex++;
      const runNames = group.map((r) => r.name).join(', ');
      core.info(`[TestWorkflow] Executing group ${groupIndex}/${groups.length}: [${runNames}]`);
      // Execute runs within a group concurrently
      const groupResults = await Promise.all(group.map((run) => TestWorkflowService.executeTestRun(run, parameters)));
      allResults.push(...groupResults);
      // Check for failures -- if any run in this group failed, log a warning
      // but continue to the next group (fail-forward for maximum feedback)
      const failedRuns = groupResults.filter((r) => r.failed > 0);
      if (failedRuns.length > 0) {
        const failedNames = failedRuns.map((r) => r.runName).join(', ');
        core.warning(`[TestWorkflow] Failures detected in group ${groupIndex}: [${failedNames}]`);
      }
    }
    // Generate and output summary
    const summary = TestResultReporter.generateSummary(allResults);
    core.info(summary);
    // Write results if output path is configured
    const resultPath = parameters.testResultPath;
    const resultFormat = parameters.testResultFormat;
    if (resultPath) {
      TestResultReporter.writeResults(allResults, resultPath, resultFormat as 'junit' | 'json' | 'both');
      core.info(`[TestWorkflow] Results written to: ${resultPath}`);
    }
    return allResults;
  }
  /**
   * Execute a single test run definition.
   * Builds the Unity CLI arguments based on the run configuration (edit mode,
   * play mode, built client) and taxonomy filters, executes the command
   * asynchronously, and parses the result output.
   *
   * Uses promisified exec instead of execSync so that Promise.all can
   * actually run multiple test groups in parallel without blocking the
   * Node.js event loop.
   */
  static async executeTestRun(run: TestRunDefinition, parameters: BuildParameters): Promise<TestResult> {
    core.info(`[TestWorkflow] Starting run: '${run.name}'`);
    const unityArguments = TestWorkflowService.buildUnityArgs(run, parameters);
    const timeoutMs = (run.timeout ?? 600) * 1000;
    core.info(`[TestWorkflow] Unity args: ${unityArguments}`);
    const startTime = Date.now();
    try {
      const resultDirectory = path.join(parameters.testResultPath ?? './test-results', run.name);
      const resultFile = path.join(resultDirectory, 'results.xml');
      // Build the full Unity command
      const unityPath = TestWorkflowService.resolveUnityPath(parameters);
      const command = `"${unityPath}" ${unityArguments} -testResults "${resultFile}"`;
      core.info(`[TestWorkflow] Executing: ${command}`);
      await execAsync(command, {
        timeout: timeoutMs,
        maxBuffer: 50 * 1024 * 1024, // 50 MB to handle large Unity output
        cwd: parameters.projectPath || process.cwd(),
      });
      const duration = (Date.now() - startTime) / 1000;
      // Parse the result file
      try {
        const result = TestResultReporter.parseJUnitResults(resultFile);
        result.runName = run.name;
        result.duration = duration;
        return result;
      } catch {
        // Result file may not exist if Unity exited early
        core.warning(`[TestWorkflow] Could not parse results for run '${run.name}' -- result file may be missing`);
        return {
          runName: run.name,
          passed: 0,
          failed: 0,
          skipped: 0,
          duration,
          failures: [],
        };
      }
    } catch (error: any) {
      const duration = (Date.now() - startTime) / 1000;
      // The promisified exec sets error.killed when the process is terminated
      // due to timeout, and error.signal will be 'SIGTERM'
      const isTimeout = error.killed === true || error.signal === 'SIGTERM';
      if (isTimeout) {
        core.error(`[TestWorkflow] Run '${run.name}' timed out after ${run.timeout ?? 600}s`);
      } else {
        core.error(`[TestWorkflow] Run '${run.name}' failed: ${error.message}`);
      }
      // Try to parse partial results even on failure
      const resultDirectory = path.join(parameters.testResultPath ?? './test-results', run.name);
      const resultFile = path.join(resultDirectory, 'results.xml');
      try {
        const result = TestResultReporter.parseJUnitResults(resultFile);
        result.runName = run.name;
        result.duration = duration;
        return result;
      } catch {
        return {
          runName: run.name,
          passed: 0,
          failed: 1,
          skipped: 0,
          duration,
          failures: [
            {
              testName: isTimeout ? 'Timeout' : 'ExecutionError',
              className: run.name,
              message: isTimeout
                ? `Test run timed out after ${run.timeout ?? 600}s`
                : error.message ?? 'Unknown execution error',
              stackTrace: error.stderr ?? undefined,
            },
          ],
        };
      }
    }
  }
  /**
   * Build Unity CLI arguments for a test run based on its configuration.
   */
  static buildUnityArgs(run: TestRunDefinition, parameters: BuildParameters): string {
    const unityArguments: string[] = ['-batchmode', '-nographics'];
    // Project path
    if (parameters.projectPath) {
      unityArguments.push(`-projectPath "${parameters.projectPath}"`);
    }
    // Test mode
    if (run.builtClient && run.builtClientPath) {
      // Built client testing: run tests against a built player
      unityArguments.push(
        '-runTests',
        `-testPlatform StandalonePlayer`,
        `-assemblyNames Assembly-CSharp-Tests`,
        `-builtPlayerPath "${run.builtClientPath}"`,
      );
    } else if (run.editMode && run.playMode) {
      // Both modes: run EditMode first, then PlayMode will require a separate invocation
      // For combined mode, use EditMode (the service handles sequencing)
      unityArguments.push('-runTests', '-testPlatform EditMode');
    } else if (run.playMode) {
      unityArguments.push('-runTests', '-testPlatform PlayMode');
    } else if (run.editMode) {
      unityArguments.push('-runTests', '-testPlatform EditMode');
    }
    // Apply taxonomy filters
    if (run.filters && Object.keys(run.filters).length > 0) {
      const filterArguments = TaxonomyFilterService.buildFilterArgs(run.filters);
      if (filterArguments) {
        unityArguments.push(filterArguments);
      }
    }
    // Target platform
    if (parameters.targetPlatform) {
      unityArguments.push(`-buildTarget ${parameters.targetPlatform}`);
    }
    return unityArguments.join(' ');
  }
  /**
   * Resolve the path to the Unity editor executable.
   */
  private static resolveUnityPath(parameters: BuildParameters): string {
    // In CI, Unity path is typically set via environment or the docker container
    const environmentUnityPath = process.env.UNITY_PATH ?? process.env.UNITY_EDITOR;
    if (environmentUnityPath) {
      return environmentUnityPath;
    }
    // Default paths by platform
    if (process.platform === 'win32') {
      return `C:/Program Files/Unity/Hub/Editor/${parameters.editorVersion}/Editor/Unity.exe`;
    }
    if (process.platform === 'darwin') {
      return `/Applications/Unity/Hub/Editor/${parameters.editorVersion}/Unity.app/Contents/MacOS/Unity`;
    }
    // Linux default (Docker container path)
    return '/opt/unity/Editor/Unity';
  }
 }
--- a/src/model/orchestrator/services/test-workflow/test-workflow-types.ts
+++ b/src/model/orchestrator/services/test-workflow/test-workflow-types.ts
@@ -1,41 +0,0 @@
 export interface TestSuiteDefinition {
  name: string;
  description?: string;
  runs: TestRunDefinition[];
 }
 export interface TestRunDefinition {
  name: string;
  needs?: string[];
  editMode?: boolean;
  playMode?: boolean;
  builtClient?: boolean;
  builtClientPath?: string;
  filters?: Record<string, string>; // dimension -> comma-separated values or /regex/
  timeout?: number;
 }
 export interface TaxonomyDimension {
  name: string;
  values: string[];
 }
 export interface TaxonomyDefinition {
  extensible_groups: TaxonomyDimension[];
 }
 export interface TestResult {
  runName: string;
  passed: number;
  failed: number;
  skipped: number;
  duration: number;
  failures: TestFailure[];
 }
 export interface TestFailure {
  testName: string;
  className: string;
  message: string;
  stackTrace?: string;
 }
--- a/src/model/orchestrator/services/test-workflow/test-workflow.test.ts
+++ b/src/model/orchestrator/services/test-workflow/test-workflow.test.ts
@@ -1,562 +0,0 @@
 import fs from 'node:fs';
 import { TestSuiteParser } from './test-suite-parser';
 import { TaxonomyFilterService } from './taxonomy-filter-service';
 import { TestResultReporter } from './test-result-reporter';
 import { TestWorkflowService } from './test-workflow-service';
 import { TestSuiteDefinition, TestResult, TestRunDefinition } from './test-workflow-types';
 jest.mock('node:fs');
 jest.mock('@actions/core');
 const mockFs = fs as jest.Mocked<typeof fs>;
 afterEach(() => {
  jest.clearAllMocks();
 });
 // ============================================================================
 // Test Suite Parser
 // ============================================================================
 describe('TestSuiteParser', () => {
  describe('parseSuiteFile', () => {
    it('should parse a valid YAML suite file', () => {
      const yaml = `
 name: pull-request
 description: Fast feedback for pull requests
 runs:
  - name: fast
    editMode: true
    filters:
      Maturity: Trusted
      FeedbackSpeed: Fast,Moderate
    timeout: 300
  - name: basic
    needs: [fast]
    editMode: true
    playMode: true
    filters:
      Maturity: Trusted,Adolescent
    timeout: 600
 `;
      mockFs.existsSync.mockReturnValue(true);
      mockFs.readFileSync.mockReturnValue(yaml);
      const suite = TestSuiteParser.parseSuiteFile('/path/to/suite.yml');
      expect(suite.name).toBe('pull-request');
      expect(suite.description).toBe('Fast feedback for pull requests');
      expect(suite.runs).toHaveLength(2);
      expect(suite.runs[0].name).toBe('fast');
      expect(suite.runs[0].editMode).toBe(true);
      expect(suite.runs[0].filters?.Maturity).toBe('Trusted');
      expect(suite.runs[0].timeout).toBe(300);
      expect(suite.runs[1].needs).toEqual(['fast']);
    });
    it('should throw when file does not exist', () => {
      mockFs.existsSync.mockReturnValue(false);
      expect(() => TestSuiteParser.parseSuiteFile('/missing.yml')).toThrow('not found');
    });
    it('should throw on invalid YAML', () => {
      mockFs.existsSync.mockReturnValue(true);
      mockFs.readFileSync.mockReturnValue('not: valid: yaml: [');
      expect(() => TestSuiteParser.parseSuiteFile('/bad.yml')).toThrow();
    });
    it('should throw when suite has no name', () => {
      mockFs.existsSync.mockReturnValue(true);
      mockFs.readFileSync.mockReturnValue('runs:\n  - name: test\n    editMode: true');
      expect(() => TestSuiteParser.parseSuiteFile('/no-name.yml')).toThrow("'name'");
    });
    it('should throw when suite has no runs', () => {
      mockFs.existsSync.mockReturnValue(true);
      mockFs.readFileSync.mockReturnValue('name: test');
      expect(() => TestSuiteParser.parseSuiteFile('/no-runs.yml')).toThrow("'runs'");
    });
    it('should throw on invalid needs reference', () => {
      const yaml = `
 name: bad-deps
 runs:
  - name: first
    editMode: true
    needs: [nonexistent]
 `;
      mockFs.existsSync.mockReturnValue(true);
      mockFs.readFileSync.mockReturnValue(yaml);
      expect(() => TestSuiteParser.parseSuiteFile('/bad-deps.yml')).toThrow("unknown run 'nonexistent'");
    });
  });
  describe('resolveRunOrder', () => {
    it('should return single group when no dependencies exist', () => {
      const suite: TestSuiteDefinition = {
        name: 'test',
        runs: [
          { name: 'a', editMode: true },
          { name: 'b', playMode: true },
        ],
      };
      const groups = TestSuiteParser.resolveRunOrder(suite);
      expect(groups).toHaveLength(1);
      expect(groups[0]).toHaveLength(2);
    });
    it('should resolve linear dependencies into sequential groups', () => {
      const suite: TestSuiteDefinition = {
        name: 'test',
        runs: [
          { name: 'a', editMode: true },
          { name: 'b', needs: ['a'], playMode: true },
          { name: 'c', needs: ['b'], editMode: true },
        ],
      };
      const groups = TestSuiteParser.resolveRunOrder(suite);
      expect(groups).toHaveLength(3);
      expect(groups[0][0].name).toBe('a');
      expect(groups[1][0].name).toBe('b');
      expect(groups[2][0].name).toBe('c');
    });
    it('should place independent runs in the same group', () => {
      const suite: TestSuiteDefinition = {
        name: 'test',
        runs: [
          { name: 'root', editMode: true },
          { name: 'branch-a', needs: ['root'], playMode: true },
          { name: 'branch-b', needs: ['root'], editMode: true },
        ],
      };
      const groups = TestSuiteParser.resolveRunOrder(suite);
      expect(groups).toHaveLength(2);
      expect(groups[0]).toHaveLength(1);
      expect(groups[1]).toHaveLength(2);
    });
    it('should detect circular dependencies', () => {
      const suite: TestSuiteDefinition = {
        name: 'circular',
        runs: [
          { name: 'a', needs: ['b'], editMode: true },
          { name: 'b', needs: ['a'], playMode: true },
        ],
      };
      expect(() => TestSuiteParser.resolveRunOrder(suite)).toThrow('Circular dependency');
    });
    it('should detect three-way circular dependencies', () => {
      const suite: TestSuiteDefinition = {
        name: 'circular3',
        runs: [
          { name: 'a', needs: ['c'], editMode: true },
          { name: 'b', needs: ['a'], playMode: true },
          { name: 'c', needs: ['b'], editMode: true },
        ],
      };
      expect(() => TestSuiteParser.resolveRunOrder(suite)).toThrow('Circular dependency');
    });
  });
  describe('validateSuite', () => {
    it('should return no errors for a valid suite', () => {
      const suite: TestSuiteDefinition = {
        name: 'valid',
        runs: [
          { name: 'a', editMode: true },
          { name: 'b', needs: ['a'], playMode: true },
        ],
      };
      const errors = TestSuiteParser.validateSuite(suite);
      expect(errors).toHaveLength(0);
    });
    it('should detect duplicate run names', () => {
      const suite: TestSuiteDefinition = {
        name: 'dupes',
        runs: [
          { name: 'a', editMode: true },
          { name: 'a', playMode: true },
        ],
      };
      const errors = TestSuiteParser.validateSuite(suite);
      expect(errors.some((e) => e.includes('Duplicate'))).toBe(true);
    });
    it('should detect missing test mode', () => {
      const suite: TestSuiteDefinition = {
        name: 'no-mode',
        runs: [{ name: 'empty' }],
      };
      const errors = TestSuiteParser.validateSuite(suite);
      expect(errors.some((e) => e.includes('editMode'))).toBe(true);
    });
    it('should detect self-dependency', () => {
      const suite: TestSuiteDefinition = {
        name: 'self-dep',
        runs: [{ name: 'a', needs: ['a'], editMode: true }],
      };
      const errors = TestSuiteParser.validateSuite(suite);
      expect(errors.some((e) => e.includes('depends on itself'))).toBe(true);
    });
  });
 });
 // ============================================================================
 // Taxonomy Filter Service
 // ============================================================================
 describe('TaxonomyFilterService', () => {
  describe('loadTaxonomy', () => {
    it('should return built-in dimensions when no file provided', () => {
      const dimensions = TaxonomyFilterService.loadTaxonomy();
      expect(dimensions.length).toBeGreaterThanOrEqual(7);
      expect(dimensions.find((d) => d.name === 'Scope')).toBeDefined();
      expect(dimensions.find((d) => d.name === 'Maturity')).toBeDefined();
      expect(dimensions.find((d) => d.name === 'FeedbackSpeed')).toBeDefined();
      expect(dimensions.find((d) => d.name === 'Execution')).toBeDefined();
      expect(dimensions.find((d) => d.name === 'Rigor')).toBeDefined();
      expect(dimensions.find((d) => d.name === 'Determinism')).toBeDefined();
      expect(dimensions.find((d) => d.name === 'IsolationLevel')).toBeDefined();
    });
    it('should merge custom dimensions from file', () => {
      const yaml = `
 extensible_groups:
  - name: SubjectLevel
    values: [Class, Feature, System, Product]
  - name: DataScenario
    values: [HappyPath, EdgeCase]
 `;
      mockFs.existsSync.mockReturnValue(true);
      mockFs.readFileSync.mockReturnValue(yaml);
      const dimensions = TaxonomyFilterService.loadTaxonomy('/taxonomy.yml');
      expect(dimensions.find((d) => d.name === 'SubjectLevel')).toBeDefined();
      expect(dimensions.find((d) => d.name === 'DataScenario')).toBeDefined();
      // Built-ins should still exist
      expect(dimensions.find((d) => d.name === 'Scope')).toBeDefined();
    });
    it('should merge values for existing dimensions', () => {
      const yaml = `
 extensible_groups:
  - name: Scope
    values: [Unit, Integration, Acceptance]
 `;
      mockFs.existsSync.mockReturnValue(true);
      mockFs.readFileSync.mockReturnValue(yaml);
      const dimensions = TaxonomyFilterService.loadTaxonomy('/taxonomy.yml');
      const scope = dimensions.find((d) => d.name === 'Scope');
      expect(scope).toBeDefined();
      // Should contain built-in + custom values without duplicates
      expect(scope!.values).toContain('Unit');
      expect(scope!.values).toContain('Integration');
      expect(scope!.values).toContain('Acceptance');
      expect(scope!.values).toContain('System');
    });
  });
  describe('buildFilterArgs', () => {
    it('should return empty string for empty filters', () => {
      expect(TaxonomyFilterService.buildFilterArgs({})).toBe('');
    });
    it('should build single-value filter', () => {
      const result = TaxonomyFilterService.buildFilterArgs({ Maturity: 'Trusted' });
      expect(result).toBe('--testFilter "Maturity=Trusted"');
    });
    it('should build multi-value filter with pipe separator', () => {
      const result = TaxonomyFilterService.buildFilterArgs({ Scope: 'Unit,Integration' });
      expect(result).toBe('--testFilter "Scope=Unit|Integration"');
    });
    it('should build regex filter', () => {
      const result = TaxonomyFilterService.buildFilterArgs({ Maturity: '/Trusted|Adolescent/' });
      expect(result).toBe('--testFilter "Maturity=~Trusted|Adolescent"');
    });
    it('should AND multiple dimensions with semicolon', () => {
      const result = TaxonomyFilterService.buildFilterArgs({
        Maturity: 'Trusted',
        Scope: 'Unit',
      });
      expect(result).toContain(';');
      expect(result).toContain('Maturity=Trusted');
      expect(result).toContain('Scope=Unit');
    });
  });
  describe('matchesFilter', () => {
    it('should match exact value', () => {
      const match = TaxonomyFilterService.matchesFilter({ Scope: 'Unit', Maturity: 'Trusted' }, { Scope: 'Unit' });
      expect(match).toBe(true);
    });
    it('should match comma-separated values', () => {
      const match = TaxonomyFilterService.matchesFilter({ Scope: 'Integration' }, { Scope: 'Unit,Integration' });
      expect(match).toBe(true);
    });
    it('should not match when value is not in list', () => {
      const match = TaxonomyFilterService.matchesFilter({ Scope: 'End To End' }, { Scope: 'Unit,Integration' });
      expect(match).toBe(false);
    });
    it('should require all dimensions to match (AND)', () => {
      const match = TaxonomyFilterService.matchesFilter(
        { Scope: 'Unit', Maturity: 'Experimental' },
        { Scope: 'Unit', Maturity: 'Trusted' },
      );
      expect(match).toBe(false);
    });
    it('should match regex patterns', () => {
      const match = TaxonomyFilterService.matchesFilter({ Maturity: 'Trusted' }, { Maturity: '/Trusted|Adolescent/' });
      expect(match).toBe(true);
    });
    it('should not match when regex does not match', () => {
      const match = TaxonomyFilterService.matchesFilter(
        { Maturity: 'Experimental' },
        { Maturity: '/Trusted|Adolescent/' },
      );
      expect(match).toBe(false);
    });
    it('should return false when test lacks a required dimension', () => {
      const match = TaxonomyFilterService.matchesFilter({}, { Scope: 'Unit' });
      expect(match).toBe(false);
    });
    it('should handle hierarchical dot-notation matching', () => {
      const match = TaxonomyFilterService.matchesFilter({ Domain: 'Combat.Melee.Sword' }, { Domain: 'Combat.Melee' });
      expect(match).toBe(true);
    });
  });
 });
 // ============================================================================
 // Test Result Reporter
 // ============================================================================
 describe('TestResultReporter', () => {
  describe('parseJUnitXml', () => {
    it('should parse a valid JUnit XML string', () => {
      const xml = `<?xml version="1.0" encoding="UTF-8"?>
 <testsuite name="EditMode" tests="10" failures="2" skipped="1" time="5.432">
  <testcase classname="MyTests" name="TestA">
  </testcase>
  <testcase classname="MyTests" name="TestB">
    <failure message="Expected true">
      <![CDATA[at MyTests.TestB() in TestFile.cs:42]]>
    </failure>
  </testcase>
 </testsuite>`;
      const result = TestResultReporter.parseJUnitXml(xml);
      expect(result.runName).toBe('EditMode');
      expect(result.passed).toBe(7);
      expect(result.failed).toBe(2);
      expect(result.skipped).toBe(1);
      expect(result.duration).toBeCloseTo(5.432);
      expect(result.failures).toHaveLength(1);
      expect(result.failures[0].testName).toBe('TestB');
      expect(result.failures[0].className).toBe('MyTests');
      expect(result.failures[0].message).toBe('Expected true');
      expect(result.failures[0].stackTrace).toContain('TestFile.cs:42');
    });
    it('should handle empty test suite', () => {
      const xml = `<testsuite name="Empty" tests="0" failures="0" time="0.0"></testsuite>`;
      const result = TestResultReporter.parseJUnitXml(xml);
      expect(result.passed).toBe(0);
      expect(result.failed).toBe(0);
      expect(result.failures).toHaveLength(0);
    });
  });
  describe('parseJsonData', () => {
    it('should parse Unity JSON test result data', () => {
      const data = {
        name: 'PlayMode',
        passed: 15,
        failed: 2,
        skipped: 3,
        duration: 12.5,
        testResults: [{ name: 'FailingTest', className: 'MyClass', result: 'Failed', message: 'Assert failed' }],
      };
      const result = TestResultReporter.parseJsonData(data);
      expect(result.runName).toBe('PlayMode');
      expect(result.passed).toBe(15);
      expect(result.failed).toBe(2);
      expect(result.skipped).toBe(3);
      expect(result.failures).toHaveLength(1);
      expect(result.failures[0].testName).toBe('FailingTest');
    });
  });
  describe('generateSummary', () => {
    it('should generate a markdown summary table', () => {
      const results: TestResult[] = [
        {
          runName: 'fast',
          passed: 10,
          failed: 0,
          skipped: 2,
          duration: 5.0,
          failures: [],
        },
        {
          runName: 'basic',
          passed: 20,
          failed: 1,
          skipped: 0,
          duration: 30.0,
          failures: [{ testName: 'TestX', className: 'ClassX', message: 'Expected 1 but got 2' }],
        },
      ];
      const summary = TestResultReporter.generateSummary(results);
      expect(summary).toContain('Test Results Summary');
      expect(summary).toContain('fast');
      expect(summary).toContain('basic');
      expect(summary).toContain('Total');
      expect(summary).toContain('Failures');
      expect(summary).toContain('TestX');
    });
    it('should return message when no results available', () => {
      const summary = TestResultReporter.generateSummary([]);
      expect(summary).toContain('No test results');
    });
  });
  describe('writeResults', () => {
    it('should create output directory and write files for json format', () => {
      mockFs.existsSync.mockReturnValue(false);
      mockFs.mkdirSync.mockReturnValue(undefined as any);
      mockFs.writeFileSync.mockReturnValue(undefined);
      const results: TestResult[] = [
        { runName: 'test', passed: 5, failed: 0, skipped: 0, duration: 1.0, failures: [] },
      ];
      TestResultReporter.writeResults(results, '/output', 'json');
      expect(mockFs.mkdirSync).toHaveBeenCalledWith('/output', { recursive: true });
      // Should write JSON + summary
      expect(mockFs.writeFileSync).toHaveBeenCalledTimes(2);
    });
    it('should write both formats when specified', () => {
      mockFs.existsSync.mockReturnValue(true);
      mockFs.writeFileSync.mockReturnValue(undefined);
      const results: TestResult[] = [
        { runName: 'test', passed: 5, failed: 0, skipped: 0, duration: 1.0, failures: [] },
      ];
      TestResultReporter.writeResults(results, '/output', 'both');
      // Should write JSON + JUnit XML + summary = 3 calls
      expect(mockFs.writeFileSync).toHaveBeenCalledTimes(3);
    });
  });
 });
 // ============================================================================
 // Test Workflow Service - buildUnityArgs
 // ============================================================================
 describe('TestWorkflowService', () => {
  describe('buildUnityArgs', () => {
    const baseParams = {
      projectPath: '/project',
      targetPlatform: 'StandaloneLinux64',
      testResultPath: './test-results',
      testResultFormat: 'junit',
    } as any;
    it('should build EditMode args', () => {
      const run: TestRunDefinition = { name: 'edit', editMode: true };
      const args = TestWorkflowService.buildUnityArgs(run, baseParams);
      expect(args).toContain('-batchmode');
      expect(args).toContain('-nographics');
      expect(args).toContain('-runTests');
      expect(args).toContain('-testPlatform EditMode');
      expect(args).toContain('-projectPath');
    });
    it('should build PlayMode args', () => {
      const run: TestRunDefinition = { name: 'play', playMode: true };
      const args = TestWorkflowService.buildUnityArgs(run, baseParams);
      expect(args).toContain('-testPlatform PlayMode');
    });
    it('should build built-client args', () => {
      const run: TestRunDefinition = {
        name: 'client',
        builtClient: true,
        builtClientPath: './Builds/Linux',
      };
      const args = TestWorkflowService.buildUnityArgs(run, baseParams);
      expect(args).toContain('-testPlatform StandalonePlayer');
      expect(args).toContain('-builtPlayerPath');
      expect(args).toContain('./Builds/Linux');
    });
    it('should include taxonomy filter args', () => {
      const run: TestRunDefinition = {
        name: 'filtered',
        editMode: true,
        filters: { Maturity: 'Trusted', Scope: 'Unit,Integration' },
      };
      const args = TestWorkflowService.buildUnityArgs(run, baseParams);
      expect(args).toContain('--testFilter');
      expect(args).toContain('Maturity=Trusted');
    });
    it('should include build target', () => {
      const run: TestRunDefinition = { name: 'test', editMode: true };
      const args = TestWorkflowService.buildUnityArgs(run, baseParams);
      expect(args).toContain('-buildTarget StandaloneLinux64');
    });
  });
 });
--- a/src/model/orchestrator/services/test/README.md
+++ b/src/model/orchestrator/services/test/README.md
@@ -1,5 +0,0 @@
 # Test Workflow Engine
 Service for YAML-based test suite definitions, taxonomy filtering, and structured test results.
 See GitHub Issue for full specification.
Author	SHA1	Message	Date
frostebite	dcb0894d0e	fix: replace orchestrator-develop branch references with main The orchestrator-develop branch no longer exists. Update all fallback clone commands and test fixtures to use main instead. Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-03-09 20:08:44 +00:00
frostebite	90b9b0c7b0	ci: set macOS builds to continue-on-error Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-03-05 23:33:48 +00:00
frostebite	e9c247f04f	style: fix prettier formatting Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-03-05 14:10:24 +00:00
frostebite	cff759721a	fix(load-balancing): add pagination limits and rate-limit detection Cap pagination at 100 pages (10,000 runners max), detect GitHub API rate limiting (403/429) with reset time reporting, add 30-second total timeout for pagination loop. Log clear diagnostic when no runners found suggesting possible causes (token permissions, runner registration). Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-03-05 13:00:17 +00:00
frostebite	7e9d0bf53e	test(orchestrator): add runner availability service tests Covers: no token skip, no runners fallback, busy/offline runners, label filtering (case-insensitive), minAvailable threshold, fail-open on API error, mixed runner states. Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-03-05 07:58:58 +00:00
frostebite	8194790728	feat(orchestrator): add retry-on-fallback and provider init timeout Adds retryOnFallback (retry failed builds on alternate provider) and providerInitTimeout (swap provider if init takes too long). Refactors run() into run()/runWithProvider() to support retry loop. Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-03-05 07:45:54 +00:00
frostebite	786ee3799c	feat(orchestrator): automatic provider fallback with runner availability check Adds built-in load balancing: check GitHub runner availability before builds start, auto-route to a fallback provider when runners are busy or offline. Eliminates the need for a separate check-runner job. New inputs: fallbackProviderStrategy, runnerCheckEnabled, runnerCheckLabels, runnerCheckMinAvailable. Outputs providerFallbackUsed and providerFallbackReason for workflow visibility. Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-03-05 07:39:23 +00:00