import { jest } from '@jest/globals'; import fs from 'fs'; import path from 'path'; import os from 'os'; // Mock external modules jest.mock('child_process', () => ({ execSync: jest.fn() })); // Mock console methods jest.mock('console', () => ({ log: jest.fn(), info: jest.fn(), warn: jest.fn(), error: jest.fn(), clear: jest.fn() })); describe('Kiro Integration', () => { let tempDir; beforeEach(() => { jest.clearAllMocks(); // Create a temporary directory for testing tempDir = fs.mkdtempSync(path.join(os.tmpdir(), 'task-master-test-')); // Spy on fs methods jest.spyOn(fs, 'writeFileSync').mockImplementation(() => {}); jest.spyOn(fs, 'readFileSync').mockImplementation((filePath) => { if (filePath.toString().includes('mcp.json')) { return JSON.stringify({ mcpServers: {} }, null, 2); } return '{}'; }); jest.spyOn(fs, 'existsSync').mockImplementation(() => false); jest.spyOn(fs, 'mkdirSync').mockImplementation(() => {}); }); afterEach(() => { // Clean up the temporary directory try { fs.rmSync(tempDir, { recursive: true, force: true }); } catch (err) { console.error(`Error cleaning up: ${err.message}`); } }); // Test function that simulates the createProjectStructure behavior for Kiro files function mockCreateKiroStructure() { // This function simulates the actual kiro profile creation logic // It explicitly calls the mocked fs methods to ensure consistency with the test environment // Simulate directory creation calls - these will call the mocked mkdirSync fs.mkdirSync(path.join(tempDir, '.kiro'), { recursive: true }); fs.mkdirSync(path.join(tempDir, '.kiro', 'steering'), { recursive: true }); fs.mkdirSync(path.join(tempDir, '.kiro', 'settings'), { recursive: true }); // Create MCP config file at .kiro/settings/mcp.json // This will call the mocked writeFileSync fs.writeFileSync( path.join(tempDir, '.kiro', 'settings', 'mcp.json'), JSON.stringify({ mcpServers: {} }, null, 2) ); // Create kiro rule files in steering directory // All these will call the mocked writeFileSync fs.writeFileSync( path.join(tempDir, '.kiro', 'steering', 'kiro_rules.md'), '# Kiro Rules\n\nKiro-specific rules and instructions.' ); fs.writeFileSync( path.join(tempDir, '.kiro', 'steering', 'dev_workflow.md'), '# Development Workflow\n\nDevelopment workflow instructions.' ); fs.writeFileSync( path.join(tempDir, '.kiro', 'steering', 'self_improve.md'), '# Self Improvement\n\nSelf improvement guidelines.' ); fs.writeFileSync( path.join(tempDir, '.kiro', 'steering', 'taskmaster.md'), '# Task Master\n\nTask Master integration instructions.' ); } test('creates all required .kiro directories', () => { // Act mockCreateKiroStructure(); // Assert expect(fs.mkdirSync).toHaveBeenCalledWith(path.join(tempDir, '.kiro'), { recursive: true }); expect(fs.mkdirSync).toHaveBeenCalledWith( path.join(tempDir, '.kiro', 'steering'), { recursive: true } ); expect(fs.mkdirSync).toHaveBeenCalledWith( path.join(tempDir, '.kiro', 'settings'), { recursive: true } ); }); test('creates Kiro mcp.json with mcpServers format', () => { // Act mockCreateKiroStructure(); // Assert expect(fs.writeFileSync).toHaveBeenCalledWith( path.join(tempDir, '.kiro', 'settings', 'mcp.json'), JSON.stringify({ mcpServers: {} }, null, 2) ); }); test('creates rule files in steering directory', () => { // Act mockCreateKiroStructure(); // Assert expect(fs.writeFileSync).toHaveBeenCalledWith( path.join(tempDir, '.kiro', 'steering', 'kiro_rules.md'), '# Kiro Rules\n\nKiro-specific rules and instructions.' ); expect(fs.writeFileSync).toHaveBeenCalledWith( path.join(tempDir, '.kiro', 'steering', 'dev_workflow.md'), '# Development Workflow\n\nDevelopment workflow instructions.' ); expect(fs.writeFileSync).toHaveBeenCalledWith( path.join(tempDir, '.kiro', 'steering', 'self_improve.md'), '# Self Improvement\n\nSelf improvement guidelines.' ); expect(fs.writeFileSync).toHaveBeenCalledWith( path.join(tempDir, '.kiro', 'steering', 'taskmaster.md'), '# Task Master\n\nTask Master integration instructions.' ); }); });