""" HTTP Server for SimpleMem MCP Provides: - User registration and authentication (/api/auth/*) - MCP over Streamable HTTP (2025-03-26 spec) (/mcp) - Legacy MCP over SSE for backwards compatibility (/mcp/sse) - Static frontend for configuration (/) Streamable HTTP Transport: - Single endpoint /mcp supporting POST, GET, DELETE - Authentication via Authorization: Bearer header - Session management via Mcp-Session-Id header - Supports both JSON and SSE response formats """ import asyncio import json import os import uuid import secrets from typing import Optional from datetime import datetime, timedelta from contextlib import asynccontextmanager from dataclasses import dataclass, field from fastapi import FastAPI, HTTPException, Depends, Query, Request, Header, Response from fastapi.middleware.cors import CORSMiddleware from fastapi.staticfiles import StaticFiles from fastapi.responses import HTMLResponse, StreamingResponse, JSONResponse from pydantic import BaseModel from .auth.token_manager import TokenManager from .auth.models import User from .database.user_store import UserStore from .database.vector_store import MultiTenantVectorStore from .integrations.openrouter import OpenRouterClient, OpenRouterClientManager from .integrations.ollama import OllamaClient, OllamaClientManager from .mcp_handler import MCPHandler import sys sys.path.insert(0, os.path.dirname(os.path.dirname(os.path.abspath(__file__)))) from config.settings import get_settings # === Pydantic Models === class RegisterRequest(BaseModel): openrouter_api_key: str class RegisterResponse(BaseModel): success: bool token: Optional[str] = None user_id: Optional[str] = None mcp_endpoint: Optional[str] = None error: Optional[str] = None # === Session Management === @dataclass class MCPSession: """Represents an active MCP session""" session_id: str user_id: str user: User api_key: str handler: MCPHandler created_at: datetime = field(default_factory=datetime.utcnow) last_active: datetime = field(default_factory=datetime.utcnow) initialized: bool = False # Server-to-client message queue for GET requests message_queue: asyncio.Queue = field(default_factory=asyncio.Queue) # Track active SSE streams active_streams: set = field(default_factory=set) # Event ID counter for resumability event_counter: int = 0 def next_event_id(self) -> str: """Generate next SSE event ID""" self.event_counter += 1 return f"{self.session_id}-{self.event_counter}" def touch(self): """Update last active timestamp""" self.last_active = datetime.utcnow() # Session expiry time (30 minutes of inactivity) SESSION_EXPIRY_MINUTES = 30 # === Global Instances === settings = get_settings() user_store = UserStore(settings.user_db_path) vector_store = MultiTenantVectorStore(settings.lancedb_path, settings.embedding_dimension) token_manager = TokenManager( secret_key=settings.jwt_secret_key, encryption_key=settings.encryption_key, expiration_days=settings.jwt_expiration_days, ) # Initialize client manager based on provider if settings.llm_provider == "ollama": client_manager = OllamaClientManager( base_url=settings.ollama_base_url, llm_model=settings.llm_model, embedding_model=settings.embedding_model, ) else: # Default to OpenRouter client_manager = OpenRouterClientManager( base_url=settings.openrouter_base_url, llm_model=settings.llm_model, embedding_model=settings.embedding_model, ) # Store active MCP handlers per user (legacy) _mcp_handlers: dict[str, MCPHandler] = {} # Store active sessions by session_id _sessions: dict[str, MCPSession] = {} # Lock for session operations _session_lock = asyncio.Lock() # === Session Helper Functions === async def cleanup_expired_sessions(): """Remove expired sessions""" async with _session_lock: now = datetime.utcnow() expired = [ sid for sid, session in _sessions.items() if (now - session.last_active).total_seconds() > SESSION_EXPIRY_MINUTES * 60 ] for sid in expired: del _sessions[sid] if expired: print(f"Cleaned up {len(expired)} expired sessions") async def session_cleanup_task(): """Background task to clean up expired sessions""" while True: await asyncio.sleep(60) # Check every minute await cleanup_expired_sessions() def generate_session_id() -> str: """Generate a cryptographically secure session ID""" return secrets.token_urlsafe(32) async def get_or_create_session(user: User, api_key: str, session_id: Optional[str] = None) -> MCPSession: """Get existing session or create new one""" async with _session_lock: if session_id and session_id in _sessions: session = _sessions[session_id] session.touch() return session # Create new session new_session_id = generate_session_id() handler = MCPHandler( user=user, api_key=api_key, vector_store=vector_store, client_manager=client_manager, settings=settings, ) session = MCPSession( session_id=new_session_id, user_id=user.user_id, user=user, api_key=api_key, handler=handler, ) _sessions[new_session_id] = session return session async def get_session(session_id: str) -> Optional[MCPSession]: """Get session by ID""" async with _session_lock: session = _sessions.get(session_id) if session: session.touch() return session async def delete_session(session_id: str) -> bool: """Delete a session""" async with _session_lock: if session_id in _sessions: del _sessions[session_id] return True return False # === Authentication Helper === async def verify_bearer_token(authorization: Optional[str]) -> tuple[User, str]: """ Verify Bearer token from Authorization header. Returns (user, api_key) tuple. Raises HTTPException on failure. """ if not authorization: raise HTTPException( status_code=401, detail="Missing Authorization header", headers={"WWW-Authenticate": "Bearer"}, ) parts = authorization.split() if len(parts) != 2 or parts[0].lower() != "bearer": raise HTTPException( status_code=401, detail="Invalid Authorization header format. Use: Bearer ", headers={"WWW-Authenticate": "Bearer"}, ) token = parts[1] is_valid, payload, error = token_manager.verify_token(token) if not is_valid: raise HTTPException( status_code=401, detail=f"Invalid token: {error}", headers={"WWW-Authenticate": "Bearer"}, ) user = user_store.get_user(payload.user_id) if not user: raise HTTPException(status_code=404, detail="User not found") api_key = token_manager.decrypt_api_key(user.openrouter_api_key_encrypted) return user, api_key # === Lifecycle === @asynccontextmanager async def lifespan(app: FastAPI): """Lifecycle manager for the app""" print("SimpleMem MCP Server started") print(f" - LLM Model: {settings.llm_model}") print(f" - Embedding Model: {settings.embedding_model}") print(f" - Window Size: {settings.window_size}") print(f" - Transport: Streamable HTTP (2025-03-26)") # Start session cleanup task cleanup_task = asyncio.create_task(session_cleanup_task()) yield # Cancel cleanup task cleanup_task.cancel() try: await cleanup_task except asyncio.CancelledError: pass print("SimpleMem MCP Server stopped") # === FastAPI App === app = FastAPI( title="SimpleMem MCP Server", description="Multi-tenant Memory Service for LLM Agents", version="1.0.0", lifespan=lifespan, ) app.add_middleware( CORSMiddleware, allow_origins=["*"], allow_credentials=True, allow_methods=["*"], allow_headers=["*"], ) # === Authentication Endpoints === @app.post("/api/auth/register", response_model=RegisterResponse) async def register(request: RegisterRequest): """Register a new user with API key (or placeholder for Ollama)""" try: api_key = request.openrouter_api_key # For Ollama, we don't need a real API key, use a placeholder if settings.llm_provider == "ollama": if not api_key or api_key == "": # Use a placeholder key for Ollama api_key = "ollama-placeholder-key" # Verify Ollama is accessible client = OllamaClient(base_url=settings.ollama_base_url) is_valid, error = await client.verify_api_key() await client.close() if not is_valid: return RegisterResponse( success=False, error=f"Cannot connect to Ollama: {error}", ) else: # For OpenRouter, validate the API key client = OpenRouterClient( api_key=api_key, base_url=settings.openrouter_base_url, ) is_valid, error = await client.verify_api_key() await client.close() if not is_valid: return RegisterResponse( success=False, error=f"Invalid OpenRouter API key: {error}", ) # Create user user = User() user.openrouter_api_key_encrypted = token_manager.encrypt_api_key(api_key) # Save user user_store.create_user(user) # Generate token token = token_manager.generate_token(user) # Base URL for MCP endpoint (can be overridden via env) base_url = os.getenv("MCP_BASE_URL", "") mcp_endpoint = f"{base_url}/mcp" if base_url else "/mcp" return RegisterResponse( success=True, token=token, user_id=user.user_id, mcp_endpoint=mcp_endpoint, # Streamable HTTP endpoint ) except Exception as e: return RegisterResponse( success=False, error=str(e), ) @app.get("/api/auth/verify") async def verify_token(token: str = Query(..., description="Token to verify")): """Verify token is valid""" is_valid, payload, error = token_manager.verify_token(token) if not is_valid: raise HTTPException(status_code=401, detail=error) user = user_store.get_user(payload.user_id) if not user: raise HTTPException(status_code=404, detail="User not found") return { "valid": True, "user_id": user.user_id, } @app.post("/api/auth/refresh") async def refresh_token(token: str = Query(..., description="Token to refresh")): """Refresh authentication token""" is_valid, payload, error = token_manager.verify_token(token) if not is_valid: raise HTTPException(status_code=401, detail=error) user = user_store.get_user(payload.user_id) if not user: raise HTTPException(status_code=404, detail="User not found") new_token = token_manager.generate_token(user) return { "success": True, "token": new_token, } # === Health & Info === @app.get("/api/health") async def health_check(): """Health check endpoint""" return { "status": "healthy", "timestamp": datetime.utcnow().isoformat(), "version": "1.0.0", } @app.get("/api/server/info") async def server_info(): """Get server information""" return { "name": "SimpleMem MCP Server", "version": "1.0.0", "protocol_version": "2025-03-26", "transport": "Streamable HTTP", "llm_model": settings.llm_model, "embedding_model": settings.embedding_model, "window_size": settings.window_size, "active_sessions": len(_sessions), "total_users": user_store.count_users(), } # === MCP Protocol Endpoints (Streamable HTTP - 2025-03-26 spec) === def _get_mcp_handler(user: User, api_key: str) -> MCPHandler: """Get or create MCP handler for user (legacy)""" if user.user_id not in _mcp_handlers: _mcp_handlers[user.user_id] = MCPHandler( user=user, api_key=api_key, vector_store=vector_store, client_manager=client_manager, settings=settings, ) return _mcp_handlers[user.user_id] def _is_initialize_request(data: dict | list) -> bool: """Check if the message is an initialize request""" if isinstance(data, list): return any( isinstance(item, dict) and item.get("method") == "initialize" for item in data ) return isinstance(data, dict) and data.get("method") == "initialize" def _is_notification_or_response_only(data: dict | list) -> bool: """Check if message contains only notifications or responses (no requests)""" items = data if isinstance(data, list) else [data] for item in items: if not isinstance(item, dict): continue # Has 'method' but no 'id' -> notification # Has 'result' or 'error' -> response # Has both 'method' and 'id' -> request if "method" in item and "id" in item: return False # This is a request return True @app.post("/mcp") async def mcp_post_endpoint( request: Request, authorization: Optional[str] = Header(None), mcp_session_id: Optional[str] = Header(None, alias="Mcp-Session-Id"), ): """ Streamable HTTP POST endpoint (MCP 2025-03-26 spec). Handles JSON-RPC 2.0 messages from clients. Headers: - Authorization: Bearer (required) - Accept: application/json, text/event-stream (required) - Mcp-Session-Id: (required after initialization) Request body: JSON-RPC request, notification, response, or array of them. Response: - For notifications/responses only: 202 Accepted - For requests: JSON response or SSE stream """ # Validate Accept header accept = request.headers.get("accept", "") if "application/json" not in accept and "text/event-stream" not in accept: raise HTTPException( status_code=406, detail="Accept header must include application/json or text/event-stream", ) # Authenticate user, api_key = await verify_bearer_token(authorization) user_store.update_last_active(user.user_id) # Parse request body try: body = await request.body() data = json.loads(body.decode("utf-8")) except json.JSONDecodeError as e: return JSONResponse( status_code=400, content={ "jsonrpc": "2.0", "error": {"code": -32700, "message": f"Parse error: {e}"}, }, ) # Handle initialization (creates new session) if _is_initialize_request(data): session = await get_or_create_session(user, api_key) session.initialized = True # Process the initialize request response_str = await session.handler.handle_message(json.dumps(data)) response_data = json.loads(response_str) # Return with Mcp-Session-Id header return JSONResponse( content=response_data, headers={"Mcp-Session-Id": session.session_id}, ) # For non-initialization requests, session ID is required if not mcp_session_id: raise HTTPException( status_code=400, detail="Mcp-Session-Id header required for non-initialization requests", ) # Get existing session session = await get_session(mcp_session_id) if not session: # Auto-create new session for expired sessions (MCP client compatibility) # This allows MCP clients to seamlessly recover from expired sessions session = await get_or_create_session(user, api_key) session.initialized = True # Optionally log the session recovery print(f"Auto-recovered expired session for user {user.user_id}, new session_id: {session.session_id}") # Verify session belongs to this user if session.user_id != user.user_id: raise HTTPException(status_code=403, detail="Session does not belong to this user") # If only notifications or responses, return 202 Accepted if _is_notification_or_response_only(data): # Still process them (e.g., initialized notification) await session.handler.handle_message(json.dumps(data)) return Response(status_code=202) # Process request(s) and return response # For now, we return JSON. SSE streaming can be added for long-running tools. response_str = await session.handler.handle_message(json.dumps(data)) response_data = json.loads(response_str) return JSONResponse( content=response_data, headers={"Mcp-Session-Id": session.session_id}, ) @app.get("/mcp") async def mcp_get_endpoint( request: Request, authorization: Optional[str] = Header(None), mcp_session_id: Optional[str] = Header(None, alias="Mcp-Session-Id"), last_event_id: Optional[str] = Header(None, alias="Last-Event-ID"), ): """ Streamable HTTP GET endpoint for server-to-client SSE stream. Used for server-initiated messages (notifications, requests to client). Headers: - Authorization: Bearer (required) - Accept: text/event-stream (required) - Mcp-Session-Id: (required) - Last-Event-ID: (optional, for resumability) """ # Validate Accept header accept = request.headers.get("accept", "") if "text/event-stream" not in accept: raise HTTPException( status_code=406, detail="Accept header must include text/event-stream", ) # Authenticate user, api_key = await verify_bearer_token(authorization) # Session ID required for GET if not mcp_session_id: raise HTTPException( status_code=400, detail="Mcp-Session-Id header required", ) # Get session session = await get_session(mcp_session_id) if not session: raise HTTPException( status_code=404, detail="Session not found or expired", ) # Verify session belongs to this user if session.user_id != user.user_id: raise HTTPException(status_code=403, detail="Session does not belong to this user") # Generate unique stream ID stream_id = secrets.token_urlsafe(16) session.active_streams.add(stream_id) async def event_generator(): """Generate SSE events for server-to-client messages""" try: # Send initial keepalive yield ": keepalive\n\n" while True: try: # Wait for messages with timeout for keepalive message = await asyncio.wait_for( session.message_queue.get(), timeout=15.0, ) # Format as SSE event event_id = session.next_event_id() yield f"id: {event_id}\n" yield f"event: message\n" yield f"data: {json.dumps(message)}\n\n" except asyncio.TimeoutError: # Send keepalive comment yield ": keepalive\n\n" finally: # Remove stream from active set session.active_streams.discard(stream_id) return StreamingResponse( event_generator(), media_type="text/event-stream", headers={ "Cache-Control": "no-cache, no-store, must-revalidate", "Connection": "keep-alive", "X-Accel-Buffering": "no", "Mcp-Session-Id": session.session_id, }, ) @app.delete("/mcp") async def mcp_delete_endpoint( authorization: Optional[str] = Header(None), mcp_session_id: Optional[str] = Header(None, alias="Mcp-Session-Id"), ): """ Terminate an MCP session. Headers: - Authorization: Bearer (required) - Mcp-Session-Id: (required) """ # Authenticate user, api_key = await verify_bearer_token(authorization) if not mcp_session_id: raise HTTPException(status_code=400, detail="Mcp-Session-Id header required") # Get session to verify ownership session = await get_session(mcp_session_id) if not session: raise HTTPException(status_code=404, detail="Session not found") if session.user_id != user.user_id: raise HTTPException(status_code=403, detail="Session does not belong to this user") # Delete session await delete_session(mcp_session_id) return Response(status_code=204) # === Legacy MCP Endpoints (HTTP+SSE - 2024-11-05 spec) === # Kept for backwards compatibility with older clients @app.get("/mcp/sse") async def mcp_sse_endpoint_legacy( request: Request, token: Optional[str] = Query(None, description="Authentication token (legacy)"), authorization: Optional[str] = Header(None), ): """ Legacy MCP over Server-Sent Events (SSE) endpoint. DEPRECATED: Use Streamable HTTP at /mcp instead. Supports both: - Query param: ?token= (legacy) - Header: Authorization: Bearer (preferred) """ # Try to get token from header first, then query param if authorization: user, api_key = await verify_bearer_token(authorization) elif token: is_valid, payload, error = token_manager.verify_token(token) if not is_valid: raise HTTPException(status_code=401, detail=error) user = user_store.get_user(payload.user_id) if not user: raise HTTPException(status_code=404, detail="User not found") api_key = token_manager.decrypt_api_key(user.openrouter_api_key_encrypted) else: raise HTTPException(status_code=401, detail="Authentication required") # Create session for legacy client session = await get_or_create_session(user, api_key) # Get base URL base_url = os.getenv("MCP_BASE_URL", "") message_endpoint = f"{base_url}/mcp/message" if base_url else "/mcp/message" async def event_generator(): """Generate SSE events""" # Send endpoint info as first event (legacy format) endpoint_url = f"{message_endpoint}?session_id={session.session_id}" yield f"event: endpoint\ndata: {endpoint_url}\n\n" # Send initial keepalive yield ": keepalive\n\n" # Keep connection alive while True: await asyncio.sleep(15) yield ": keepalive\n\n" return StreamingResponse( event_generator(), media_type="text/event-stream", headers={ "Cache-Control": "no-cache, no-store, must-revalidate", "Connection": "keep-alive", "X-Accel-Buffering": "no", "X-Content-Type-Options": "nosniff", }, ) @app.post("/mcp/message") async def mcp_message_endpoint_legacy( request: Request, session_id: Optional[str] = Query(None, description="Session ID"), token: Optional[str] = Query(None, description="Authentication token (legacy)"), authorization: Optional[str] = Header(None), mcp_session_id: Optional[str] = Header(None, alias="Mcp-Session-Id"), ): """ Legacy MCP message endpoint. DEPRECATED: Use Streamable HTTP POST to /mcp instead. Supports both legacy and new authentication methods. """ # Get session ID from header or query param sid = mcp_session_id or session_id # Try to authenticate and get session if authorization: user, api_key = await verify_bearer_token(authorization) if sid: session = await get_session(sid) if session and session.user_id == user.user_id: handler = session.handler else: handler = _get_mcp_handler(user, api_key) else: handler = _get_mcp_handler(user, api_key) elif token: is_valid, payload, error = token_manager.verify_token(token) if not is_valid: raise HTTPException(status_code=401, detail=error) user = user_store.get_user(payload.user_id) if not user: raise HTTPException(status_code=404, detail="User not found") api_key = token_manager.decrypt_api_key(user.openrouter_api_key_encrypted) handler = _get_mcp_handler(user, api_key) elif sid: # Try to get session by ID session = await get_session(sid) if not session: raise HTTPException(status_code=404, detail="Session not found") handler = session.handler user = session.user else: raise HTTPException(status_code=401, detail="Authentication required") user_store.update_last_active(user.user_id) # Process message body = await request.body() response = await handler.handle_message(body.decode("utf-8")) return json.loads(response) # === Static Files (Frontend) === frontend_path = os.path.join(os.path.dirname(os.path.dirname(__file__)), "frontend") if os.path.exists(frontend_path): app.mount("/static", StaticFiles(directory=frontend_path), name="static") @app.get("/", response_class=HTMLResponse) async def serve_frontend(): """Serve frontend HTML""" index_path = os.path.join(frontend_path, "index.html") if os.path.exists(index_path): with open(index_path, "r") as f: return HTMLResponse(content=f.read()) return HTMLResponse(content="

SimpleMem MCP Server

Frontend not found.

") # === Entry Point === def run_server(host: str = "0.0.0.0", port: int = 8000): """Run the HTTP server""" import uvicorn uvicorn.run(app, host=host, port=port) if __name__ == "__main__": run_server()