""" MCP Server Module This module provides a framework for creating an MCP (Model Context Protocol) server. It allows you to easily define and handle various types of requests and notifications in an asynchronous manner. Usage: 1. Create a Server instance: server = Server("your_server_name") 2. Define request handlers using decorators: @server.list_prompts() async def handle_list_prompts(request: types.ListPromptsRequest) -> types.ListPromptsResult: # Implementation @server.get_prompt() async def handle_get_prompt( name: str, arguments: dict[str, str] | None ) -> types.GetPromptResult: # Implementation @server.list_tools() async def handle_list_tools(request: types.ListToolsRequest) -> types.ListToolsResult: # Implementation @server.call_tool() async def handle_call_tool( name: str, arguments: dict | None ) -> list[types.TextContent | types.ImageContent | types.EmbeddedResource]: # Implementation @server.list_resource_templates() async def handle_list_resource_templates() -> list[types.ResourceTemplate]: # Implementation 3. Define notification handlers if needed: @server.progress_notification() async def handle_progress( progress_token: str | int, progress: float, total: float | None, message: str | None ) -> None: # Implementation 4. Run the server: async def main(): async with mcp.server.stdio.stdio_server() as (read_stream, write_stream): await server.run( read_stream, write_stream, InitializationOptions( server_name="your_server_name", server_version="your_version", capabilities=server.get_capabilities( notification_options=NotificationOptions(), experimental_capabilities={}, ), ), ) asyncio.run(main()) The Server class provides methods to register handlers for various MCP requests and notifications. It automatically manages the request context and handles incoming messages from the client. """ from __future__ import annotations as _annotations import base64 import contextvars import json import logging import warnings from collections.abc import AsyncIterator, Awaitable, Callable, Iterable from contextlib import AbstractAsyncContextManager, AsyncExitStack, asynccontextmanager from typing import Any, Generic, TypeAlias, cast import anyio import jsonschema from anyio.streams.memory import MemoryObjectReceiveStream, MemoryObjectSendStream from pydantic import AnyUrl from typing_extensions import TypeVar import mcp.types as types from mcp.server.experimental.request_context import Experimental from mcp.server.lowlevel.experimental import ExperimentalHandlers from mcp.server.lowlevel.func_inspection import create_call_wrapper from mcp.server.lowlevel.helper_types import ReadResourceContents from mcp.server.models import InitializationOptions from mcp.server.session import ServerSession from mcp.shared.context import RequestContext from mcp.shared.exceptions import McpError, UrlElicitationRequiredError from mcp.shared.message import ServerMessageMetadata, SessionMessage from mcp.shared.session import RequestResponder from mcp.shared.tool_name_validation import validate_and_warn_tool_name logger = logging.getLogger(__name__) LifespanResultT = TypeVar("LifespanResultT", default=Any) RequestT = TypeVar("RequestT", default=Any) # type aliases for tool call results StructuredContent: TypeAlias = dict[str, Any] UnstructuredContent: TypeAlias = Iterable[types.ContentBlock] CombinationContent: TypeAlias = tuple[UnstructuredContent, StructuredContent] # This will be properly typed in each Server instance's context request_ctx: contextvars.ContextVar[RequestContext[ServerSession, Any, Any]] = contextvars.ContextVar("request_ctx") class NotificationOptions: def __init__( self, prompts_changed: bool = False, resources_changed: bool = False, tools_changed: bool = False, ): self.prompts_changed = prompts_changed self.resources_changed = resources_changed self.tools_changed = tools_changed @asynccontextmanager async def lifespan(_: Server[LifespanResultT, RequestT]) -> AsyncIterator[dict[str, Any]]: """Default lifespan context manager that does nothing. Args: server: The server instance this lifespan is managing Returns: An empty context object """ yield {} class Server(Generic[LifespanResultT, RequestT]): def __init__( self, name: str, version: str | None = None, instructions: str | None = None, website_url: str | None = None, icons: list[types.Icon] | None = None, lifespan: Callable[ [Server[LifespanResultT, RequestT]], AbstractAsyncContextManager[LifespanResultT], ] = lifespan, ): self.name = name self.version = version self.instructions = instructions self.website_url = website_url self.icons = icons self.lifespan = lifespan self.request_handlers: dict[type, Callable[..., Awaitable[types.ServerResult]]] = { types.PingRequest: _ping_handler, } self.notification_handlers: dict[type, Callable[..., Awaitable[None]]] = {} self._tool_cache: dict[str, types.Tool] = {} self._experimental_handlers: ExperimentalHandlers | None = None logger.debug("Initializing server %r", name) def create_initialization_options( self, notification_options: NotificationOptions | None = None, experimental_capabilities: dict[str, dict[str, Any]] | None = None, ) -> InitializationOptions: """Create initialization options from this server instance.""" def pkg_version(package: str) -> str: try: from importlib.metadata import version return version(package) except Exception: # pragma: no cover pass return "unknown" # pragma: no cover return InitializationOptions( server_name=self.name, server_version=self.version if self.version else pkg_version("mcp"), capabilities=self.get_capabilities( notification_options or NotificationOptions(), experimental_capabilities or {}, ), instructions=self.instructions, website_url=self.website_url, icons=self.icons, ) def get_capabilities( self, notification_options: NotificationOptions, experimental_capabilities: dict[str, dict[str, Any]], ) -> types.ServerCapabilities: """Convert existing handlers to a ServerCapabilities object.""" prompts_capability = None resources_capability = None tools_capability = None logging_capability = None completions_capability = None # Set prompt capabilities if handler exists if types.ListPromptsRequest in self.request_handlers: prompts_capability = types.PromptsCapability(listChanged=notification_options.prompts_changed) # Set resource capabilities if handler exists if types.ListResourcesRequest in self.request_handlers: resources_capability = types.ResourcesCapability( subscribe=False, listChanged=notification_options.resources_changed ) # Set tool capabilities if handler exists if types.ListToolsRequest in self.request_handlers: tools_capability = types.ToolsCapability(listChanged=notification_options.tools_changed) # Set logging capabilities if handler exists if types.SetLevelRequest in self.request_handlers: # pragma: no cover logging_capability = types.LoggingCapability() # Set completions capabilities if handler exists if types.CompleteRequest in self.request_handlers: completions_capability = types.CompletionsCapability() capabilities = types.ServerCapabilities( prompts=prompts_capability, resources=resources_capability, tools=tools_capability, logging=logging_capability, experimental=experimental_capabilities, completions=completions_capability, ) if self._experimental_handlers: self._experimental_handlers.update_capabilities(capabilities) return capabilities @property def request_context( self, ) -> RequestContext[ServerSession, LifespanResultT, RequestT]: """If called outside of a request context, this will raise a LookupError.""" return request_ctx.get() @property def experimental(self) -> ExperimentalHandlers: """Experimental APIs for tasks and other features. WARNING: These APIs are experimental and may change without notice. """ # We create this inline so we only add these capabilities _if_ they're actually used if self._experimental_handlers is None: self._experimental_handlers = ExperimentalHandlers(self, self.request_handlers, self.notification_handlers) return self._experimental_handlers def list_prompts(self): def decorator( func: Callable[[], Awaitable[list[types.Prompt]]] | Callable[[types.ListPromptsRequest], Awaitable[types.ListPromptsResult]], ): logger.debug("Registering handler for PromptListRequest") wrapper = create_call_wrapper(func, types.ListPromptsRequest) async def handler(req: types.ListPromptsRequest): result = await wrapper(req) # Handle both old style (list[Prompt]) and new style (ListPromptsResult) if isinstance(result, types.ListPromptsResult): return types.ServerResult(result) else: # Old style returns list[Prompt] return types.ServerResult(types.ListPromptsResult(prompts=result)) self.request_handlers[types.ListPromptsRequest] = handler return func return decorator def get_prompt(self): def decorator( func: Callable[[str, dict[str, str] | None], Awaitable[types.GetPromptResult]], ): logger.debug("Registering handler for GetPromptRequest") async def handler(req: types.GetPromptRequest): prompt_get = await func(req.params.name, req.params.arguments) return types.ServerResult(prompt_get) self.request_handlers[types.GetPromptRequest] = handler return func return decorator def list_resources(self): def decorator( func: Callable[[], Awaitable[list[types.Resource]]] | Callable[[types.ListResourcesRequest], Awaitable[types.ListResourcesResult]], ): logger.debug("Registering handler for ListResourcesRequest") wrapper = create_call_wrapper(func, types.ListResourcesRequest) async def handler(req: types.ListResourcesRequest): result = await wrapper(req) # Handle both old style (list[Resource]) and new style (ListResourcesResult) if isinstance(result, types.ListResourcesResult): return types.ServerResult(result) else: # Old style returns list[Resource] return types.ServerResult(types.ListResourcesResult(resources=result)) self.request_handlers[types.ListResourcesRequest] = handler return func return decorator def list_resource_templates(self): def decorator(func: Callable[[], Awaitable[list[types.ResourceTemplate]]]): logger.debug("Registering handler for ListResourceTemplatesRequest") async def handler(_: Any): templates = await func() return types.ServerResult(types.ListResourceTemplatesResult(resourceTemplates=templates)) self.request_handlers[types.ListResourceTemplatesRequest] = handler return func return decorator def read_resource(self): def decorator( func: Callable[[AnyUrl], Awaitable[str | bytes | Iterable[ReadResourceContents]]], ): logger.debug("Registering handler for ReadResourceRequest") async def handler(req: types.ReadResourceRequest): result = await func(req.params.uri) def create_content(data: str | bytes, mime_type: str | None, meta: dict[str, Any] | None = None): # Note: ResourceContents uses Field(alias="_meta"), so we must use the alias key meta_kwargs: dict[str, Any] = {"_meta": meta} if meta is not None else {} match data: case str() as data: return types.TextResourceContents( uri=req.params.uri, text=data, mimeType=mime_type or "text/plain", **meta_kwargs, ) case bytes() as data: # pragma: no cover return types.BlobResourceContents( uri=req.params.uri, blob=base64.b64encode(data).decode(), mimeType=mime_type or "application/octet-stream", **meta_kwargs, ) match result: case str() | bytes() as data: # pragma: no cover warnings.warn( "Returning str or bytes from read_resource is deprecated. " "Use Iterable[ReadResourceContents] instead.", DeprecationWarning, stacklevel=2, ) content = create_content(data, None) case Iterable() as contents: contents_list = [ create_content( content_item.content, content_item.mime_type, getattr(content_item, "meta", None) ) for content_item in contents ] return types.ServerResult( types.ReadResourceResult( contents=contents_list, ) ) case _: # pragma: no cover raise ValueError(f"Unexpected return type from read_resource: {type(result)}") return types.ServerResult( # pragma: no cover types.ReadResourceResult( contents=[content], ) ) self.request_handlers[types.ReadResourceRequest] = handler return func return decorator def set_logging_level(self): # pragma: no cover def decorator(func: Callable[[types.LoggingLevel], Awaitable[None]]): logger.debug("Registering handler for SetLevelRequest") async def handler(req: types.SetLevelRequest): await func(req.params.level) return types.ServerResult(types.EmptyResult()) self.request_handlers[types.SetLevelRequest] = handler return func return decorator def subscribe_resource(self): # pragma: no cover def decorator(func: Callable[[AnyUrl], Awaitable[None]]): logger.debug("Registering handler for SubscribeRequest") async def handler(req: types.SubscribeRequest): await func(req.params.uri) return types.ServerResult(types.EmptyResult()) self.request_handlers[types.SubscribeRequest] = handler return func return decorator def unsubscribe_resource(self): # pragma: no cover def decorator(func: Callable[[AnyUrl], Awaitable[None]]): logger.debug("Registering handler for UnsubscribeRequest") async def handler(req: types.UnsubscribeRequest): await func(req.params.uri) return types.ServerResult(types.EmptyResult()) self.request_handlers[types.UnsubscribeRequest] = handler return func return decorator def list_tools(self): def decorator( func: Callable[[], Awaitable[list[types.Tool]]] | Callable[[types.ListToolsRequest], Awaitable[types.ListToolsResult]], ): logger.debug("Registering handler for ListToolsRequest") wrapper = create_call_wrapper(func, types.ListToolsRequest) async def handler(req: types.ListToolsRequest): result = await wrapper(req) # Handle both old style (list[Tool]) and new style (ListToolsResult) if isinstance(result, types.ListToolsResult): # pragma: no cover # Refresh the tool cache with returned tools for tool in result.tools: validate_and_warn_tool_name(tool.name) self._tool_cache[tool.name] = tool return types.ServerResult(result) else: # Old style returns list[Tool] # Clear and refresh the entire tool cache self._tool_cache.clear() for tool in result: validate_and_warn_tool_name(tool.name) self._tool_cache[tool.name] = tool return types.ServerResult(types.ListToolsResult(tools=result)) self.request_handlers[types.ListToolsRequest] = handler return func return decorator def _make_error_result(self, error_message: str) -> types.ServerResult: """Create a ServerResult with an error CallToolResult.""" return types.ServerResult( types.CallToolResult( content=[types.TextContent(type="text", text=error_message)], isError=True, ) ) async def _get_cached_tool_definition(self, tool_name: str) -> types.Tool | None: """Get tool definition from cache, refreshing if necessary. Returns the Tool object if found, None otherwise. """ if tool_name not in self._tool_cache: if types.ListToolsRequest in self.request_handlers: logger.debug("Tool cache miss for %s, refreshing cache", tool_name) await self.request_handlers[types.ListToolsRequest](None) tool = self._tool_cache.get(tool_name) if tool is None: logger.warning("Tool '%s' not listed, no validation will be performed", tool_name) return tool def call_tool(self, *, validate_input: bool = True): """Register a tool call handler. Args: validate_input: If True, validates input against inputSchema. Default is True. The handler validates input against inputSchema (if validate_input=True), calls the tool function, and builds a CallToolResult with the results: - Unstructured content (iterable of ContentBlock): returned in content - Structured content (dict): returned in structuredContent, serialized JSON text returned in content - Both: returned in content and structuredContent If outputSchema is defined, validates structuredContent or errors if missing. """ def decorator( func: Callable[ ..., Awaitable[ UnstructuredContent | StructuredContent | CombinationContent | types.CallToolResult | types.CreateTaskResult ], ], ): logger.debug("Registering handler for CallToolRequest") async def handler(req: types.CallToolRequest): try: tool_name = req.params.name arguments = req.params.arguments or {} tool = await self._get_cached_tool_definition(tool_name) # input validation if validate_input and tool: try: jsonschema.validate(instance=arguments, schema=tool.inputSchema) except jsonschema.ValidationError as e: return self._make_error_result(f"Input validation error: {e.message}") # tool call results = await func(tool_name, arguments) # output normalization unstructured_content: UnstructuredContent maybe_structured_content: StructuredContent | None if isinstance(results, types.CallToolResult): return types.ServerResult(results) elif isinstance(results, types.CreateTaskResult): # Task-augmented execution returns task info instead of result return types.ServerResult(results) elif isinstance(results, tuple) and len(results) == 2: # tool returned both structured and unstructured content unstructured_content, maybe_structured_content = cast(CombinationContent, results) elif isinstance(results, dict): # tool returned structured content only maybe_structured_content = cast(StructuredContent, results) unstructured_content = [types.TextContent(type="text", text=json.dumps(results, indent=2))] elif hasattr(results, "__iter__"): # pragma: no cover # tool returned unstructured content only unstructured_content = cast(UnstructuredContent, results) maybe_structured_content = None else: # pragma: no cover return self._make_error_result(f"Unexpected return type from tool: {type(results).__name__}") # output validation if tool and tool.outputSchema is not None: if maybe_structured_content is None: return self._make_error_result( "Output validation error: outputSchema defined but no structured output returned" ) else: try: jsonschema.validate(instance=maybe_structured_content, schema=tool.outputSchema) except jsonschema.ValidationError as e: return self._make_error_result(f"Output validation error: {e.message}") # result return types.ServerResult( types.CallToolResult( content=list(unstructured_content), structuredContent=maybe_structured_content, isError=False, ) ) except UrlElicitationRequiredError: # Re-raise UrlElicitationRequiredError so it can be properly handled # by _handle_request, which converts it to an error response with code -32042 raise except Exception as e: return self._make_error_result(str(e)) self.request_handlers[types.CallToolRequest] = handler return func return decorator def progress_notification(self): def decorator( func: Callable[[str | int, float, float | None, str | None], Awaitable[None]], ): logger.debug("Registering handler for ProgressNotification") async def handler(req: types.ProgressNotification): await func( req.params.progressToken, req.params.progress, req.params.total, req.params.message, ) self.notification_handlers[types.ProgressNotification] = handler return func return decorator def completion(self): """Provides completions for prompts and resource templates""" def decorator( func: Callable[ [ types.PromptReference | types.ResourceTemplateReference, types.CompletionArgument, types.CompletionContext | None, ], Awaitable[types.Completion | None], ], ): logger.debug("Registering handler for CompleteRequest") async def handler(req: types.CompleteRequest): completion = await func(req.params.ref, req.params.argument, req.params.context) return types.ServerResult( types.CompleteResult( completion=completion if completion is not None else types.Completion(values=[], total=None, hasMore=None), ) ) self.request_handlers[types.CompleteRequest] = handler return func return decorator async def run( self, read_stream: MemoryObjectReceiveStream[SessionMessage | Exception], write_stream: MemoryObjectSendStream[SessionMessage], initialization_options: InitializationOptions, # When False, exceptions are returned as messages to the client. # When True, exceptions are raised, which will cause the server to shut down # but also make tracing exceptions much easier during testing and when using # in-process servers. raise_exceptions: bool = False, # When True, the server is stateless and # clients can perform initialization with any node. The client must still follow # the initialization lifecycle, but can do so with any available node # rather than requiring initialization for each connection. stateless: bool = False, ): async with AsyncExitStack() as stack: lifespan_context = await stack.enter_async_context(self.lifespan(self)) session = await stack.enter_async_context( ServerSession( read_stream, write_stream, initialization_options, stateless=stateless, ) ) # Configure task support for this session if enabled task_support = self._experimental_handlers.task_support if self._experimental_handlers else None if task_support is not None: task_support.configure_session(session) await stack.enter_async_context(task_support.run()) async with anyio.create_task_group() as tg: async for message in session.incoming_messages: logger.debug("Received message: %s", message) tg.start_soon( self._handle_message, message, session, lifespan_context, raise_exceptions, ) async def _handle_message( self, message: RequestResponder[types.ClientRequest, types.ServerResult] | types.ClientNotification | Exception, session: ServerSession, lifespan_context: LifespanResultT, raise_exceptions: bool = False, ): with warnings.catch_warnings(record=True) as w: match message: case RequestResponder(request=types.ClientRequest(root=req)) as responder: with responder: await self._handle_request(message, req, session, lifespan_context, raise_exceptions) case types.ClientNotification(root=notify): await self._handle_notification(notify) case Exception(): # pragma: no cover logger.error(f"Received exception from stream: {message}") await session.send_log_message( level="error", data="Internal Server Error", logger="mcp.server.exception_handler", ) if raise_exceptions: raise message for warning in w: # pragma: no cover logger.info("Warning: %s: %s", warning.category.__name__, warning.message) async def _handle_request( self, message: RequestResponder[types.ClientRequest, types.ServerResult], req: types.ClientRequestType, session: ServerSession, lifespan_context: LifespanResultT, raise_exceptions: bool, ): logger.info("Processing request of type %s", type(req).__name__) if handler := self.request_handlers.get(type(req)): logger.debug("Dispatching request of type %s", type(req).__name__) token = None try: # Extract request context and close_sse_stream from message metadata request_data = None close_sse_stream_cb = None close_standalone_sse_stream_cb = None if message.message_metadata is not None and isinstance( message.message_metadata, ServerMessageMetadata ): # pragma: no cover request_data = message.message_metadata.request_context close_sse_stream_cb = message.message_metadata.close_sse_stream close_standalone_sse_stream_cb = message.message_metadata.close_standalone_sse_stream # Set our global state that can be retrieved via # app.get_request_context() client_capabilities = session.client_params.capabilities if session.client_params else None task_support = self._experimental_handlers.task_support if self._experimental_handlers else None # Get task metadata from request params if present task_metadata = None if hasattr(req, "params") and req.params is not None: task_metadata = getattr(req.params, "task", None) token = request_ctx.set( RequestContext( message.request_id, message.request_meta, session, lifespan_context, Experimental( task_metadata=task_metadata, _client_capabilities=client_capabilities, _session=session, _task_support=task_support, ), request=request_data, close_sse_stream=close_sse_stream_cb, close_standalone_sse_stream=close_standalone_sse_stream_cb, ) ) response = await handler(req) except McpError as err: # pragma: no cover response = err.error except anyio.get_cancelled_exc_class(): # pragma: no cover logger.info( "Request %s cancelled - duplicate response suppressed", message.request_id, ) return except Exception as err: # pragma: no cover if raise_exceptions: raise err response = types.ErrorData(code=0, message=str(err), data=None) finally: # Reset the global state after we are done if token is not None: # pragma: no branch request_ctx.reset(token) await message.respond(response) else: # pragma: no cover await message.respond( types.ErrorData( code=types.METHOD_NOT_FOUND, message="Method not found", ) ) logger.debug("Response sent") async def _handle_notification(self, notify: Any): if handler := self.notification_handlers.get(type(notify)): # type: ignore logger.debug("Dispatching notification of type %s", type(notify).__name__) try: await handler(notify) except Exception: # pragma: no cover logger.exception("Uncaught exception in notification handler") async def _ping_handler(request: types.PingRequest) -> types.ServerResult: return types.ServerResult(types.EmptyResult())