--- description: Guidelines for implementing utility functions globs: scripts/modules/utils.js, mcp-server/src/**/* alwaysApply: false --- # Utility Function Guidelines ## General Principles - **Function Scope**: - ✅ DO: Create utility functions that serve multiple modules - ✅ DO: Keep functions single-purpose and focused - ❌ DON'T: Include business logic in utility functions - ❌ DON'T: Create utilities with side effects ```javascript // ✅ DO: Create focused, reusable utilities /** * Truncates text to a specified length * @param {string} text - The text to truncate * @param {number} maxLength - The maximum length * @returns {string} The truncated text */ function truncate(text, maxLength) { if (!text || text.length <= maxLength) { return text; } return text.slice(0, maxLength - 3) + '...'; } ``` ```javascript // ❌ DON'T: Add side effects to utilities function truncate(text, maxLength) { if (!text || text.length <= maxLength) { return text; } // Side effect - modifying global state or logging console.log(`Truncating text from ${text.length} to ${maxLength} chars`); return text.slice(0, maxLength - 3) + '...'; } ``` - **Location**: - **Core CLI Utilities**: Place utilities used primarily by the core `task-master` CLI logic and command modules (`scripts/modules/*`) into [`scripts/modules/utils.js`](mdc:scripts/modules/utils.js). - **MCP Server Utilities**: Place utilities specifically designed to support the MCP server implementation into the appropriate subdirectories within `mcp-server/src/`. - Path/Core Logic Helpers: [`mcp-server/src/core/utils/`](mdc:mcp-server/src/core/utils/) (e.g., `path-utils.js`). - Tool Execution/Response Helpers: [`mcp-server/src/tools/utils.js`](mdc:mcp-server/src/tools/utils.js). ## Documentation Standards - **JSDoc Format**: - ✅ DO: Document all parameters and return values - ✅ DO: Include descriptions for complex logic - ✅ DO: Add examples for non-obvious usage - ❌ DON'T: Skip documentation for "simple" functions ```javascript // ✅ DO: Provide complete JSDoc documentation /** * Reads and parses a JSON file * @param {string} filepath - Path to the JSON file * @returns {Object|null} Parsed JSON data or null if error occurs */ function readJSON(filepath) { try { const rawData = fs.readFileSync(filepath, 'utf8'); return JSON.parse(rawData); } catch (error) { log('error', `Error reading JSON file ${filepath}:`, error.message); if (CONFIG.debug) { console.error(error); } return null; } } ``` ## Configuration Management (via `config-manager.js`) Taskmaster configuration (excluding API keys) is primarily managed through the `.taskmasterconfig` file located in the project root and accessed via getters in [`scripts/modules/config-manager.js`](mdc:scripts/modules/config-manager.js). - **`.taskmasterconfig` File**: - ✅ DO: Use this JSON file to store settings like AI model selections (main, research, fallback), parameters (temperature, maxTokens), logging level, default priority/subtasks, etc. - ✅ DO: Manage this file using the `task-master models --setup` CLI command or the `models` MCP tool. - ✅ DO: Rely on [`config-manager.js`](mdc:scripts/modules/config-manager.js) to load this file (using the correct project root passed from MCP or found via CLI utils), merge with defaults, and provide validated settings. - ❌ DON'T: Store API keys in this file. - ❌ DON'T: Manually edit this file unless necessary. - **Configuration Getters (`config-manager.js`)**: - ✅ DO: Import and use specific getters from `config-manager.js` (e.g., `getMainProvider()`, `getLogLevel()`, `getMainMaxTokens()`) to access configuration values *needed for application logic* (like `getDefaultSubtasks`). - ✅ DO: Pass the `explicitRoot` parameter to getters if calling from MCP direct functions to ensure the correct project's config is loaded. - ❌ DON'T: Call AI-specific getters (like `getMainModelId`, `getMainMaxTokens`) from core logic functions (`scripts/modules/task-manager/*`). Instead, pass the `role` to the unified AI service. - ❌ DON'T: Access configuration values directly from environment variables (except API keys). - **API Key Handling (`utils.js` & `ai-services-unified.js`)**: - ✅ DO: Store API keys **only** in `.env` (for CLI, loaded by `dotenv` in `scripts/dev.js`) or `.cursor/mcp.json` (for MCP, accessed via `session.env`). - ✅ DO: Use `isApiKeySet(providerName, session)` from `config-manager.js` to check if a provider's key is available *before* potentially attempting an AI call if needed, but note the unified service performs its own internal check. - ✅ DO: Understand that the unified service layer (`ai-services-unified.js`) internally resolves API keys using `resolveEnvVariable(key, session)` from `utils.js`. - **Error Handling**: - ✅ DO: Handle potential `ConfigurationError` if the `.taskmasterconfig` file is missing or invalid when accessed via `getConfig` (e.g., in `commands.js` or direct functions). ## Logging Utilities (in `scripts/modules/utils.js`) - **Log Levels**: - ✅ DO: Support multiple log levels (debug, info, warn, error) - ✅ DO: Use appropriate icons for different log levels - ✅ DO: Respect the configured log level - ❌ DON'T: Add direct console.log calls outside the logging utility - **Note on Passed Loggers**: When a logger object (like the FastMCP `log` object) is passed *as a parameter* (e.g., as `mcpLog`) into core Task Master functions, the receiving function often expects specific methods (`.info`, `.warn`, `.error`, etc.) to be directly callable on that object (e.g., `mcpLog[level](...)`). If the passed logger doesn't have this exact structure, a wrapper object may be needed. See the **Handling Logging Context (`mcpLog`)** section in [`mcp.mdc`](mdc:.cursor/rules/mcp.mdc) for the standard pattern used in direct functions. - **Logger Wrapper Pattern**: - ✅ DO: Use the logger wrapper pattern when passing loggers to prevent `mcpLog[level] is not a function` errors: ```javascript // Standard logWrapper pattern to wrap FastMCP's log object const logWrapper = { info: (message, ...args) => log.info(message, ...args), warn: (message, ...args) => log.warn(message, ...args), error: (message, ...args) => log.error(message, ...args), debug: (message, ...args) => log.debug && log.debug(message, ...args), success: (message, ...args) => log.info(message, ...args) // Map success to info }; // Pass this wrapper as mcpLog to ensure consistent method availability // This also ensures output format is set to 'json' in many core functions const options = { mcpLog: logWrapper, session }; ``` - ✅ DO: Implement this pattern in any direct function that calls core functions expecting `mcpLog` - ✅ DO: Use this solution in conjunction with silent mode for complete output control - ❌ DON'T: Pass the FastMCP `log` object directly as `mcpLog` to core functions - **Important**: This pattern has successfully fixed multiple issues in MCP tools (e.g., `update-task`, `update-subtask`) where using or omitting `mcpLog` incorrectly led to runtime errors or JSON parsing failures. - For complete implementation details, see the **Handling Logging Context (`mcpLog`)** section in [`mcp.mdc`](mdc:.cursor/rules/mcp.mdc). ```javascript // ✅ DO: Implement a proper logging utility const LOG_LEVELS = { debug: 0, info: 1, warn: 2, error: 3 }; function log(level, ...args) { const icons = { debug: chalk.gray('🔍'), info: chalk.blue('ℹ️'), warn: chalk.yellow('⚠️'), error: chalk.red('❌'), success: chalk.green('✅') }; if (LOG_LEVELS[level] >= LOG_LEVELS[CONFIG.logLevel]) { const icon = icons[level] || ''; console.log(`${icon} ${args.join(' ')}`); } } ``` ## Silent Mode Utilities (in `scripts/modules/utils.js`) - **Silent Mode Control**: - ✅ DO: Use the exported silent mode functions rather than accessing global variables - ✅ DO: Always use `isSilentMode()` to check the current silent mode state - ✅ DO: Ensure silent mode is disabled in a `finally` block to prevent it from staying enabled - ❌ DON'T: Access the global `silentMode` variable directly - ❌ DON'T: Forget to disable silent mode after enabling it ```javascript // ✅ DO: Use the silent mode control functions properly // Example of proper implementation in utils.js: // Global silent mode flag (private to the module) let silentMode = false; // Enable silent mode function enableSilentMode() { silentMode = true; } // Disable silent mode function disableSilentMode() { silentMode = false; } // Check if silent mode is enabled function isSilentMode() { return silentMode; } // Example of proper usage in another module: import { enableSilentMode, disableSilentMode, isSilentMode } from './utils.js'; // Check current status if (!isSilentMode()) { console.log('Silent mode is not enabled'); } // Use try/finally pattern to ensure silent mode is disabled try { enableSilentMode(); // Do something that should suppress console output performOperation(); } finally { disableSilentMode(); } ``` - **Integration with Logging**: - ✅ DO: Make the `log` function respect silent mode ```javascript function log(level, ...args) { // Skip logging if silent mode is enabled if (isSilentMode()) { return; } // Rest of logging logic... } ``` - **Common Patterns for Silent Mode**: - ✅ DO: In **direct functions** (`mcp-server/src/core/direct-functions/*`) that call **core functions** (`scripts/modules/*`), ensure console output from the core function is suppressed to avoid breaking MCP JSON responses. - **Preferred Method**: Update the core function to accept an `outputFormat` parameter (e.g., `outputFormat = 'text'`) and make it check `outputFormat === 'text'` before displaying any UI elements (banners, spinners, boxes, direct `console.log`s). Pass `'json'` from the direct function. - **Necessary Fallback/Guarantee**: If the core function *cannot* be modified or its output suppression via `outputFormat` is unreliable, **wrap the core function call within the direct function** using `enableSilentMode()` and `disableSilentMode()` in a `try/finally` block. This acts as a safety net. ```javascript // Example in a direct function export async function someOperationDirect(args, log) { let result; const tasksPath = findTasksJsonPath(args, log); // Get path first // Option 1: Core function handles 'json' format (Preferred) try { result = await coreFunction(tasksPath, ...otherArgs, 'json'); // Pass 'json' return { success: true, data: result, fromCache: false }; } catch (error) { // Handle error... } // Option 2: Core function output unreliable (Fallback/Guarantee) try { enableSilentMode(); // Enable before call result = await coreFunction(tasksPath, ...otherArgs); // Call without format param } catch (error) { // Handle error... log.error(`Failed: ${error.message}`); return { success: false, error: { /* ... */ } }; } finally { disableSilentMode(); // ALWAYS disable in finally } return { success: true, data: result, fromCache: false }; // Assuming success if no error caught } ``` - ✅ DO: For functions that accept a silent mode parameter but also need to check global state (less common): ```javascript // Check both the passed parameter and global silent mode const isSilent = options.silentMode || (typeof options.silentMode === 'undefined' && isSilentMode()); ``` ## File Operations (in `scripts/modules/utils.js`) - **Error Handling**: - ✅ DO: Use try/catch blocks for all file operations - ✅ DO: Return null or a default value on failure - ✅ DO: Log detailed error information using the `log` utility - ❌ DON'T: Allow exceptions to propagate unhandled from simple file reads/writes ```javascript // ✅ DO: Handle file operation errors properly in core utils function writeJSON(filepath, data) { try { // Ensure directory exists (example) const dir = path.dirname(filepath); if (!fs.existsSync(dir)) { fs.mkdirSync(dir, { recursive: true }); } fs.writeFileSync(filepath, JSON.stringify(data, null, 2)); } catch (error) { log('error', `Error writing JSON file ${filepath}:`, error.message); if (CONFIG.debug) { console.error(error); } } } ``` ## Task-Specific Utilities (in `scripts/modules/utils.js`) - **Task ID Formatting**: - ✅ DO: Create utilities for consistent ID handling - ✅ DO: Support different ID formats (numeric, string, dot notation) - ❌ DON'T: Duplicate formatting logic across modules ```javascript // ✅ DO: Create utilities for common operations /** * Formats a task ID as a string * @param {string|number} id - The task ID to format * @returns {string} The formatted task ID */ function formatTaskId(id) { if (typeof id === 'string' && id.includes('.')) { return id; // Already formatted as a string with a dot (e.g., "1.2") } if (typeof id === 'number') { return id.toString(); } return id; } ``` - **Task Search**: - ✅ DO: Implement reusable task finding utilities - ✅ DO: Support both task and subtask lookups - ✅ DO: Add context to subtask results ```javascript // ✅ DO: Create comprehensive search utilities /** * Finds a task by ID in the tasks array * @param {Array} tasks - The tasks array * @param {string|number} taskId - The task ID to find * @returns {Object|null} The task object or null if not found */ function findTaskById(tasks, taskId) { if (!taskId || !tasks || !Array.isArray(tasks)) { return null; } // Check if it's a subtask ID (e.g., "1.2") if (typeof taskId === 'string' && taskId.includes('.')) { const [parentId, subtaskId] = taskId.split('.').map(id => parseInt(id, 10)); const parentTask = tasks.find(t => t.id === parentId); if (!parentTask || !parentTask.subtasks) { return null; } const subtask = parentTask.subtasks.find(st => st.id === subtaskId); if (subtask) { // Add reference to parent task for context subtask.parentTask = { id: parentTask.id, title: parentTask.title, status: parentTask.status }; subtask.isSubtask = true; } return subtask || null; } const id = parseInt(taskId, 10); return tasks.find(t => t.id === id) || null; } ``` ## Cycle Detection (in `scripts/modules/utils.js`) - **Graph Algorithms**: - ✅ DO: Implement cycle detection using graph traversal - ✅ DO: Track visited nodes and recursion stack - ✅ DO: Return specific information about cycles ```javascript // ✅ DO: Implement proper cycle detection /** * Find cycles in a dependency graph using DFS * @param {string} subtaskId - Current subtask ID * @param {Map} dependencyMap - Map of subtask IDs to their dependencies * @param {Set} visited - Set of visited nodes * @param {Set} recursionStack - Set of nodes in current recursion stack * @returns {Array} - List of dependency edges that need to be removed to break cycles */ function findCycles(subtaskId, dependencyMap, visited = new Set(), recursionStack = new Set(), path = []) { // Mark the current node as visited and part of recursion stack visited.add(subtaskId); recursionStack.add(subtaskId); path.push(subtaskId); const cyclesToBreak = []; // Get all dependencies of the current subtask const dependencies = dependencyMap.get(subtaskId) || []; // For each dependency for (const depId of dependencies) { // If not visited, recursively check for cycles if (!visited.has(depId)) { const cycles = findCycles(depId, dependencyMap, visited, recursionStack, [...path]); cyclesToBreak.push(...cycles); } // If the dependency is in the recursion stack, we found a cycle else if (recursionStack.has(depId)) { // The last edge in the cycle is what we want to remove cyclesToBreak.push(depId); } } // Remove the node from recursion stack before returning recursionStack.delete(subtaskId); return cyclesToBreak; } ``` ## MCP Server Core Utilities (`mcp-server/src/core/utils/`) ### Project Root and Task File Path Detection (`path-utils.js`) - **Purpose**: This module ([`mcp-server/src/core/utils/path-utils.js`](mdc:mcp-server/src/core/utils/path-utils.js)) provides the mechanism for locating the user's `tasks.json` file, used by direct functions. - **`findTasksJsonPath(args, log)`**: - ✅ **DO**: Call this function from within **direct function wrappers** (e.g., `listTasksDirect` in `mcp-server/src/core/direct-functions/`) to get the absolute path to the relevant `tasks.json`. - Pass the *entire `args` object* received by the MCP tool (which should include `projectRoot` derived from the session) and the `log` object. - Implements a **simplified precedence system** for finding the `tasks.json` path: 1. Explicit `projectRoot` passed in `args` (Expected from MCP tools). 2. Cached `lastFoundProjectRoot` (CLI fallback). 3. Search upwards from `process.cwd()` (CLI fallback). - Throws a specific error if the `tasks.json` file cannot be located. - Updates the `lastFoundProjectRoot` cache on success. - **`PROJECT_MARKERS`**: An exported array of common file/directory names used to identify a likely project root during the CLI fallback search. - **`getPackagePath()`**: Utility to find the installation path of the `task-master-ai` package itself (potentially removable). ## MCP Server Tool Utilities (`mcp-server/src/tools/utils.js`) These utilities specifically support the implementation and execution of MCP tools. - **`normalizeProjectRoot(rawPath, log)`**: - **Purpose**: Takes a raw project root path (potentially URI encoded, with `file://` prefix, Windows slashes) and returns a normalized, absolute path suitable for the server's OS. - **Logic**: Decodes URI, strips `file://`, handles Windows drive prefix (`/C:/`), replaces `\` with `/`, uses `path.resolve()`. - **Usage**: Used internally by `withNormalizedProjectRoot` HOF. - **`getRawProjectRootFromSession(session, log)`**: - **Purpose**: Extracts the *raw* project root URI string from the session object (`session.roots[0].uri` or `session.roots.roots[0].uri`) without performing normalization. - **Usage**: Used internally by `withNormalizedProjectRoot` HOF as a fallback if `args.projectRoot` isn't provided. - **`withNormalizedProjectRoot(executeFn)`**: - **Purpose**: A Higher-Order Function (HOF) designed to wrap a tool's `execute` method. - **Logic**: 1. Determines the raw project root (from `args.projectRoot` or `getRawProjectRootFromSession`). 2. Normalizes the raw path using `normalizeProjectRoot`. 3. Injects the normalized, absolute path back into the `args` object as `args.projectRoot`. 4. Calls the original `executeFn` with the updated `args`. - **Usage**: Should wrap the `execute` function of *every* MCP tool that needs a reliable, normalized project root path. - **Example**: ```javascript // In mcp-server/src/tools/your-tool.js import { withNormalizedProjectRoot } from './utils.js'; export function registerYourTool(server) { server.addTool({ // ... name, description, parameters ... execute: withNormalizedProjectRoot(async (args, context) => { // args.projectRoot is now normalized here const { projectRoot /*, other args */ } = args; // ... rest of tool logic using normalized projectRoot ... }) }); } ``` - **`handleApiResult(result, log, errorPrefix, processFunction)`**: - **Purpose**: Standardizes the formatting of responses returned by direct functions (`{ success, data/error, fromCache }`) into the MCP response format. - **Usage**: Call this at the end of the tool's `execute` method, passing the result from the direct function call. - **`createContentResponse(content)` / `createErrorResponse(errorMessage)`**: - **Purpose**: Helper functions to create the basic MCP response structure for success or error messages. - **Usage**: Used internally by `handleApiResult` and potentially directly for simple responses. - **`createLogWrapper(log)`**: - **Purpose**: Creates a logger object wrapper with standard methods (`info`, `warn`, `error`, `debug`, `success`) mapping to the passed MCP `log` object's methods. Ensures compatibility when passing loggers to core functions. - **Usage**: Used within direct functions before passing the `log` object down to core logic that expects the standard method names. - **`getCachedOrExecute({ cacheKey, actionFn, log })`**: - **Purpose**: Utility for implementing caching within direct functions. Checks cache for `cacheKey`; if miss, executes `actionFn`, caches successful result, and returns. - **Usage**: Wrap the core logic execution within a direct function call. - **`processMCPResponseData(taskOrData, fieldsToRemove)`**: - **Purpose**: Utility to filter potentially sensitive or large fields (like `details`, `testStrategy`) from task objects before sending the response back via MCP. - **Usage**: Passed as the default `processFunction` to `handleApiResult`. - **`getProjectRootFromSession(session, log)`**: - **Purpose**: Legacy function to extract *and normalize* the project root from the session. Replaced by the HOF pattern but potentially still used. - **Recommendation**: Prefer using the `withNormalizedProjectRoot` HOF in tools instead of calling this directly. - **`executeTaskMasterCommand(...)`**: - **Purpose**: Executes `task-master` CLI command as a fallback. - **Recommendation**: Deprecated for most uses; prefer direct function calls. ## Export Organization - **Grouping Related Functions**: - ✅ DO: Keep utilities relevant to their location (e.g., core CLI utils in `scripts/modules/utils.js`, MCP path utils in `mcp-server/src/core/utils/path-utils.js`, MCP tool utils in `mcp-server/src/tools/utils.js`). - ✅ DO: Export all utility functions in a single statement per file. - ✅ DO: Group related exports together. - ✅ DO: Export configuration constants (from `scripts/modules/utils.js`). - ❌ DON'T: Use default exports. - ❌ DON'T: Create circular dependencies (See [`architecture.mdc`](mdc:.cursor/rules/architecture.mdc)). ```javascript // Example export from scripts/modules/utils.js export { // Configuration CONFIG, LOG_LEVELS, // Logging log, // File operations readJSON, writeJSON, // String manipulation sanitizePrompt, truncate, // Task utilities // ... (taskExists, formatTaskId, findTaskById, etc.) // Graph algorithms findCycles, }; // Example export from mcp-server/src/core/utils/path-utils.js export { findTasksJsonPath, getPackagePath, PROJECT_MARKERS, lastFoundProjectRoot // Exporting for potential direct use/reset if needed }; // Example export from mcp-server/src/tools/utils.js export { getProjectRoot, getProjectRootFromSession, handleApiResult, executeTaskMasterCommand, processMCPResponseData, createContentResponse, createErrorResponse, getCachedOrExecute }; ``` Refer to [`mcp.mdc`](mdc:.cursor/rules/mcp.mdc) and [`architecture.mdc`](mdc:.cursor/rules/architecture.mdc) for more context on MCP server architecture and integration.