//! Streamable HTTP server implementation //! //! This module provides the HTTP server that uses ProxyAwareSessionManager //! for stateful session management with backend version control. use anyhow::{Result, bail}; use mcp_common::{McpServiceConfig, check_windows_command, wrap_process_v9}; use rmcp::{ ServiceExt, model::{ClientCapabilities, ClientInfo}, transport::{ TokioChildProcess, streamable_http_server::{StreamableHttpServerConfig, StreamableHttpService}, }, }; use std::process::Stdio; use std::sync::Arc; use tracing::{error, info, warn}; // 进程组管理(跨平台子进程清理) // process-wrap 9.0 使用 CommandWrap 而不是 TokioCommandWrap use process_wrap::tokio::{CommandWrap, KillOnDrop}; use crate::{ProxyAwareSessionManager, ProxyHandler}; /// 从配置启动 Streamable HTTP 服务器 /// /// # Features /// /// - **Stateful Mode**: `stateful_mode: true` 支持 session 管理和服务端推送 /// - **Version Control**: 自动检测后端重连,使旧 session 失效 /// - **Full Lifecycle**: 自动创建子进程、连接、handler、服务器 /// /// # Arguments /// /// * `config` - MCP 服务配置 /// * `std_listener` - 预先绑定的 TCP 监听器(端口在重试循环前绑定,保证端口占用) /// * `quiet` - 静默模式,不输出启动信息 pub async fn run_stream_server_from_config( config: McpServiceConfig, std_listener: &std::net::TcpListener, quiet: bool, ) -> Result<()> { // 1. 使用 process-wrap 创建子进程命令(跨平台进程清理) // process-wrap 会自动处理进程组(Unix)或 Job Object(Windows) // 并且在 Drop 时自动清理子进程树 // 子进程默认继承父进程的所有环境变量 // 🔧 Windows 特殊处理:检测并转换 .cmd/.bat 文件避免弹窗 // 如果用户配置了 npm 全局安装的 MCP 服务(如 npx some-server 或 some-server.cmd), // 直接运行会弹 CMD 窗口。这里尝试转换 check_windows_command(&config.command); info!( "[Subprocess][{}] Command: {} {:?}", config.name, config.command, config.args.as_ref().unwrap_or(&vec![]) ); let mut wrapped_cmd = CommandWrap::with_new(&config.command, |command| { if let Some(ref cmd_args) = config.args { command.args(cmd_args); } // 子进程默认继承父进程的所有环境变量 // 设置 MCP JSON 配置中的环境变量(会覆盖继承的同名变量) if let Some(ref env_vars) = config.env { for (k, v) in env_vars { command.env(k, v); } } }); // 应用平台特定的进程包装(Unix: ProcessGroup, Windows: CREATE_NO_WINDOW + JobObject) wrap_process_v9!(wrapped_cmd); // 所有平台: Drop 时自动清理进程 wrapped_cmd.wrap(KillOnDrop); // 2. 启动子进程(rmcp 的 TokioChildProcess 已经支持 process-wrap) // 使用 builder 模式捕获 stderr,便于诊断子 MCP 服务初始化失败 let (tokio_process, child_stderr) = TokioChildProcess::builder(wrapped_cmd) .stderr(Stdio::piped()) .spawn()?; // 启动 stderr 日志读取任务 if let Some(stderr_pipe) = child_stderr { mcp_common::spawn_stderr_reader(stderr_pipe, config.name.clone()); } // 3. 创建客户端信息 let capabilities = ClientCapabilities::builder() .enable_experimental() .enable_roots() .enable_roots_list_changed() .enable_sampling() .build(); let client_info = ClientInfo::new( capabilities, rmcp::model::Implementation::new("mcp-streamable-proxy-server", env!("CARGO_PKG_VERSION")), ); // 4. 连接到子进程 let client = client_info.serve(tokio_process).await?; // 记录子进程启动到日志文件 info!( "[Subprocess startup] Streamable HTTP - Service name: {}, Command: {} {:?}", config.name, config.command, config.args.as_ref().unwrap_or(&vec![]) ); if !quiet { eprintln!("✅ The child process has been started"); // 获取并打印工具列表 match client.list_tools(None).await { Ok(tools_result) => { let tools = &tools_result.tools; if tools.is_empty() { warn!( "[Tool list] Tool list is empty - Service name: {}", config.name ); eprintln!("⚠️Tool list is empty"); } else { info!( "[Tool list] Service name: {}, Number of tools: {}", config.name, tools.len() ); eprintln!("🔧 Available tools ({}):", tools.len()); for tool in tools.iter().take(10) { let desc = tool.description.as_deref().unwrap_or("无描述"); let desc_short = if desc.len() > 50 { format!("{}...", &desc[..50]) } else { desc.to_string() }; eprintln!(" - {} : {}", tool.name, desc_short); } if tools.len() > 10 { eprintln!("... and {} other tools", tools.len() - 10); } } } Err(e) => { error!( "[Tool List] Failed to obtain tool list - Service name: {}, Error: {}", config.name, e ); eprintln!("⚠️ Failed to obtain tool list: {}", e); } } } else { // 即使静默模式也记录日志 match client.list_tools(None).await { Ok(tools_result) => { info!( "[Tool list] Service name: {}, Number of tools: {}", config.name, tools_result.tools.len() ); } Err(e) => { error!( "[Tool List] Failed to obtain tool list - Service name: {}, Error: {}", config.name, e ); } } } // 5. 创建 ProxyHandler let proxy_handler = if let Some(tool_filter) = config.tool_filter { ProxyHandler::with_tool_filter(client, config.name.clone(), tool_filter) } else { ProxyHandler::with_mcp_id(client, config.name.clone()) }; // 6. 启动服务器(使用预绑定的 listener) let listener = tokio::net::TcpListener::from_std(std_listener.try_clone()?)?; run_stream_server(proxy_handler, listener, quiet).await } /// Run Streamable HTTP server with ProxyAwareSessionManager /// /// # Features /// /// - **Stateful Mode**: `stateful_mode: true` 支持 session 管理和服务端推送 /// - **Version Control**: 自动检测后端重连,使旧 session 失效 /// - **Hot Swap**: 支持后端连接热替换 /// /// # Arguments /// /// * `proxy_handler` - ProxyHandler 实例(包含后端版本控制) /// * `listener` - 已绑定的 tokio TcpListener /// * `quiet` - 静默模式,不输出启动信息 pub async fn run_stream_server( proxy_handler: ProxyHandler, listener: tokio::net::TcpListener, quiet: bool, ) -> Result<()> { let bind_addr = listener .local_addr() .map(|a| a.to_string()) .unwrap_or_else(|_| "".to_string()); let mcp_id = proxy_handler.mcp_id().to_string(); // 记录服务启动到日志文件 info!( "[HTTP service startup] Streamable HTTP service startup - Address: {}, MCP ID: {}", bind_addr, mcp_id ); if !quiet { eprintln!("📡 Streamable HTTP service startup: http://{}", bind_addr); eprintln!("💡 MCP client can be used directly: http://{}", bind_addr); eprintln!("✨ Feature: stateful_mode (session management + server push)"); eprintln!("🔄 Backend version control: Enable (automatically handles reconnections)"); eprintln!("💡 Press Ctrl+C to stop the service"); } // 包装 handler 为 Arc,供 SessionManager 和 service factory 共享 let handler = Arc::new(proxy_handler); // 创建自定义 SessionManager(带版本控制) let session_manager = ProxyAwareSessionManager::new(handler.clone()); // 创建 Streamable HTTP 服务 // service factory 每次请求都会调用,返回 handler 的克隆 let handler_for_service = handler.clone(); let mut server_config = StreamableHttpServerConfig::default(); server_config.stateful_mode = true; // 关键:启用有状态模式 let service = StreamableHttpService::new( move || Ok((*handler_for_service).clone()), session_manager.into(), // 转换为 Arc server_config, ); // Streamable HTTP 直接在根路径提供服务 let router = axum::Router::new().fallback_service(service); // 使用传入的 listener 启动 HTTP 服务器 // 使用 select 处理 Ctrl+C 和服务器 tokio::select! { result = axum::serve(listener, router) => { if let Err(e) = result { error!( "[HTTP Service Error] Streamable HTTP Server Error - MCP ID: {}, Error: {}", mcp_id, e ); bail!("服务器错误: {}", e); } } _ = tokio::signal::ctrl_c() => { info!( "[HTTP service shutdown] Received exit signal, closing Streamable HTTP service - MCP ID: {}", mcp_id ); if !quiet { eprintln!("\\n🛑 Received exit signal, closing..."); } } } Ok(()) }