/** * Claude-mem MCP Search Server - Thin HTTP Wrapper * * Refactored from 2,718 lines to ~600-800 lines * Delegates all business logic to Worker HTTP API at localhost:37777 * Maintains MCP protocol handling and tool schemas */ // Version injected at build time by esbuild define declare const __DEFAULT_PACKAGE_VERSION__: string; const packageVersion = typeof __DEFAULT_PACKAGE_VERSION__ !== 'undefined' ? __DEFAULT_PACKAGE_VERSION__ : '0.0.0-dev'; // Import logger first import { logger } from '../utils/logger.js'; // CRITICAL: Redirect console to stderr BEFORE other imports // MCP uses stdio transport where stdout is reserved for JSON-RPC protocol messages. // Any logs to stdout break the protocol (Claude Desktop parses "[2025..." as JSON array). const _originalLog = console['log']; console['log'] = (...args: any[]) => { logger.error('CONSOLE', 'Intercepted console output (MCP protocol protection)', undefined, { args }); }; import { Server } from '@modelcontextprotocol/sdk/server/index.js'; import { StdioServerTransport } from '@modelcontextprotocol/sdk/server/stdio.js'; import { CallToolRequestSchema, ListToolsRequestSchema, } from '@modelcontextprotocol/sdk/types.js'; import { getWorkerPort, getWorkerHost } from '../shared/worker-utils.js'; /** * Worker HTTP API configuration */ const WORKER_PORT = getWorkerPort(); const WORKER_HOST = getWorkerHost(); const WORKER_BASE_URL = `http://${WORKER_HOST}:${WORKER_PORT}`; /** * Map tool names to Worker HTTP endpoints */ const TOOL_ENDPOINT_MAP: Record = { 'search': '/api/search', 'timeline': '/api/timeline' }; /** * Call Worker HTTP API endpoint */ async function callWorkerAPI( endpoint: string, params: Record ): Promise<{ content: Array<{ type: 'text'; text: string }>; isError?: boolean }> { logger.debug('SYSTEM', '→ Worker API', undefined, { endpoint, params }); try { const searchParams = new URLSearchParams(); // Convert params to query string for (const [key, value] of Object.entries(params)) { if (value !== undefined && value !== null) { searchParams.append(key, String(value)); } } const url = `${WORKER_BASE_URL}${endpoint}?${searchParams}`; const response = await fetch(url); if (!response.ok) { const errorText = await response.text(); throw new Error(`Worker API error (${response.status}): ${errorText}`); } const data = await response.json() as { content: Array<{ type: 'text'; text: string }>; isError?: boolean }; logger.debug('SYSTEM', '← Worker API success', undefined, { endpoint }); // Worker returns { content: [...] } format directly return data; } catch (error) { logger.error('SYSTEM', '← Worker API error', { endpoint }, error as Error); return { content: [{ type: 'text' as const, text: `Error calling Worker API: ${error instanceof Error ? error.message : String(error)}` }], isError: true }; } } /** * Call Worker HTTP API with POST body */ async function callWorkerAPIPost( endpoint: string, body: Record ): Promise<{ content: Array<{ type: 'text'; text: string }>; isError?: boolean }> { logger.debug('HTTP', 'Worker API request (POST)', undefined, { endpoint }); try { const url = `${WORKER_BASE_URL}${endpoint}`; const response = await fetch(url, { method: 'POST', headers: { 'Content-Type': 'application/json' }, body: JSON.stringify(body) }); if (!response.ok) { const errorText = await response.text(); throw new Error(`Worker API error (${response.status}): ${errorText}`); } const data = await response.json(); logger.debug('HTTP', 'Worker API success (POST)', undefined, { endpoint }); // Wrap raw data in MCP format return { content: [{ type: 'text' as const, text: JSON.stringify(data, null, 2) }] }; } catch (error) { logger.error('HTTP', 'Worker API error (POST)', { endpoint }, error as Error); return { content: [{ type: 'text' as const, text: `Error calling Worker API: ${error instanceof Error ? error.message : String(error)}` }], isError: true }; } } /** * Verify Worker is accessible */ async function verifyWorkerConnection(): Promise { try { const response = await fetch(`${WORKER_BASE_URL}/api/health`); return response.ok; } catch (error) { // Expected during worker startup or if worker is down logger.debug('SYSTEM', 'Worker health check failed', {}, error as Error); return false; } } /** * Tool definitions with HTTP-based handlers * Minimal descriptions - use help() tool with operation parameter for detailed docs */ const tools = [ { name: '__IMPORTANT', description: `3-LAYER WORKFLOW (ALWAYS FOLLOW): 1. search(query) → Get index with IDs (~50-100 tokens/result) 2. timeline(anchor=ID) → Get context around interesting results 3. get_observations([IDs]) → Fetch full details ONLY for filtered IDs NEVER fetch full details without filtering first. 10x token savings.`, inputSchema: { type: 'object', properties: {} }, handler: async () => ({ content: [{ type: 'text' as const, text: `# Memory Search Workflow **3-Layer Pattern (ALWAYS follow this):** 1. **Search** - Get index of results with IDs \`search(query="...", limit=20, project="...")\` Returns: Table with IDs, titles, dates (~50-100 tokens/result) 2. **Timeline** - Get context around interesting results \`timeline(anchor=, depth_before=3, depth_after=3)\` Returns: Chronological context showing what was happening 3. **Fetch** - Get full details ONLY for relevant IDs \`get_observations(ids=[...])\` # ALWAYS batch for 2+ items Returns: Complete details (~500-1000 tokens/result) **Why:** 10x token savings. Never fetch full details without filtering first.` }] }) }, { name: 'search', description: 'Step 1: Search memory. Returns index with IDs. Params: query, limit, project, type, obs_type, dateStart, dateEnd, offset, orderBy', inputSchema: { type: 'object', properties: {}, additionalProperties: true }, handler: async (args: any) => { const endpoint = TOOL_ENDPOINT_MAP['search']; return await callWorkerAPI(endpoint, args); } }, { name: 'timeline', description: 'Step 2: Get context around results. Params: anchor (observation ID) OR query (finds anchor automatically), depth_before, depth_after, project', inputSchema: { type: 'object', properties: {}, additionalProperties: true }, handler: async (args: any) => { const endpoint = TOOL_ENDPOINT_MAP['timeline']; return await callWorkerAPI(endpoint, args); } }, { name: 'get_observations', description: 'Step 3: Fetch full details for filtered IDs. Params: ids (array of observation IDs, required), orderBy, limit, project', inputSchema: { type: 'object', properties: { ids: { type: 'array', items: { type: 'number' }, description: 'Array of observation IDs to fetch (required)' } }, required: ['ids'], additionalProperties: true }, handler: async (args: any) => { return await callWorkerAPIPost('/api/observations/batch', args); } }, { name: 'save_memory', description: 'Save a manual memory/observation for semantic search. Use this to remember important information.', inputSchema: { type: 'object', properties: { text: { type: 'string', description: 'Content to remember (required)' }, title: { type: 'string', description: 'Short title (auto-generated from text if omitted)' }, project: { type: 'string', description: 'Project name (uses "claude-mem" if omitted)' } }, required: ['text'] }, handler: async (args: any) => { return await callWorkerAPIPost('/api/memory/save', args); } } ]; // Create the MCP server const server = new Server( { name: 'mcp-search-server', version: packageVersion, }, { capabilities: { tools: {}, // Exposes tools capability (handled by ListToolsRequestSchema and CallToolRequestSchema) }, } ); // Register tools/list handler server.setRequestHandler(ListToolsRequestSchema, async () => { return { tools: tools.map(tool => ({ name: tool.name, description: tool.description, inputSchema: tool.inputSchema })) }; }); // Register tools/call handler server.setRequestHandler(CallToolRequestSchema, async (request) => { const tool = tools.find(t => t.name === request.params.name); if (!tool) { throw new Error(`Unknown tool: ${request.params.name}`); } try { return await tool.handler(request.params.arguments || {}); } catch (error) { logger.error('SYSTEM', 'Tool execution failed', { tool: request.params.name }, error as Error); return { content: [{ type: 'text' as const, text: `Tool execution failed: ${error instanceof Error ? error.message : String(error)}` }], isError: true }; } }); // Cleanup function async function cleanup() { logger.info('SYSTEM', 'MCP server shutting down'); process.exit(0); } // Register cleanup handlers for graceful shutdown process.on('SIGTERM', cleanup); process.on('SIGINT', cleanup); // Start the server async function main() { // Start the MCP server const transport = new StdioServerTransport(); await server.connect(transport); logger.info('SYSTEM', 'Claude-mem search server started'); // Check Worker availability in background setTimeout(async () => { const workerAvailable = await verifyWorkerConnection(); if (!workerAvailable) { logger.error('SYSTEM', 'Worker not available', undefined, { workerUrl: WORKER_BASE_URL }); logger.error('SYSTEM', 'Tools will fail until Worker is started'); logger.error('SYSTEM', 'Start Worker with: npm run worker:restart'); } else { logger.info('SYSTEM', 'Worker available', undefined, { workerUrl: WORKER_BASE_URL }); } }, 0); } main().catch((error) => { logger.error('SYSTEM', 'Fatal error', undefined, error); // Exit gracefully: Windows Terminal won't keep tab open on exit 0 // The wrapper/plugin will handle restart logic if needed process.exit(0); });