#pragma once #include "epoll_socket.hpp" #include "router.hpp" #include "parser.hpp" #include "response.hpp" #include "static_file_handler.hpp" #include "kv_store.hpp" #include "session_store.hpp" #include #include #include #include #include #include #include #include class Server { public: KeyValueStore store; SessionStore sessions; explicit Server(uint16_t port, Router& router) : port_(port), router_(router) {} ~Server() { stop(); store.save(); sessions.save(); // Wait for all worker threads to finish for (auto& worker : workers_) { if (worker->thread.joinable()) { worker->thread.join(); } } } bool start() { // Load persistent data store.load(); sessions.load(); // Create one worker per CPU core for optimal performance unsigned int num_cores = std::thread::hardware_concurrency(); if (num_cores == 0) num_cores = 1; workers_.reserve(num_cores); // Initialize all worker sockets (SO_REUSEPORT allows this) for (unsigned int i = 0; i < num_cores; ++i) { auto worker = std::make_unique(port_, router_, static_handler_, sessions); if (!worker->socket.start()) return false; workers_.push_back(std::move(worker)); } // Start worker threads for (auto& worker : workers_) { worker->thread = std::thread([&worker]() { worker->socket.run(); }); } return true; } void run() { // Wait for all workers to complete for (auto& worker : workers_) { if (worker->thread.joinable()) { worker->thread.join(); } } } void stop() { // Signal all workers to stop for (auto& worker : workers_) { worker->socket.stop(); } } // Utility function to extract path segments static std::string get_path_param(string_view path, size_t segment_index = 0) { size_t start = 0; size_t current_segment = 0; while (start < path.length()) { if (path[start] == '/') { start++; continue; } size_t end = path.find('/', start); if (end == std::string_view::npos) end = path.length(); if (current_segment == segment_index) { return std::string(path.substr(start, end - start)); } current_segment++; start = end; } return ""; } // Enable static file serving void serve_static(const std::string& static_dir, const std::string& url_prefix = "") { static_handler_ = std::make_shared(static_dir, url_prefix); } private: static constexpr int BUFFER_SIZE = 65536; std::shared_ptr static_handler_; // Worker handles requests in a dedicated thread struct Worker { EpollSocket socket; Router& router; std::shared_ptr& static_handler; SessionStore& sessions; std::array buffer; std::string request_accumulator; // For handling partial requests std::thread thread; Worker(uint16_t port, Router& r, std::shared_ptr& sh, SessionStore& s) : socket(port), router(r), static_handler(sh), sessions(s) { // Set up event handlers for the new epoll socket library socket.on_connection([this](int fd) { handle_connection(fd); }); socket.on_data([this](int fd) { handle_data(fd); }); socket.on_disconnect([this](int fd) { handle_disconnect(fd); }); } void handle_connection(int client_fd) { // New client connected - no action needed with new library // The library handles connection tracking automatically } void handle_data(int client_fd) { // Read all available data using edge-triggered epoll while (true) { ssize_t bytes_read = read(client_fd, buffer.data(), buffer.size()); if (bytes_read == -1) { if (errno == EAGAIN || errno == EWOULDBLOCK) { // No more data available break; } // Read error - connection will be closed by epoll library return; } if (bytes_read == 0) { // EOF - client closed connection return; } // Accumulate request data request_accumulator.append(buffer.data(), bytes_read); // Check if we have a complete HTTP request size_t header_end = request_accumulator.find("\r\n\r\n"); if (header_end != std::string::npos) { // Process the complete request process_request(client_fd, request_accumulator); // Clear accumulator for next request (HTTP keep-alive) request_accumulator.clear(); return; } // Prevent memory exhaustion from malicious large headers if (request_accumulator.size() > 64 * 1024) { send_error_response(client_fd, "Request Header Too Large", 431); request_accumulator.clear(); return; } } } void handle_disconnect(int client_fd) { // Client disconnected - cleanup handled by epoll library // Clear any partial request data for this connection request_accumulator.clear(); } void process_request(int client_fd, std::string_view request_data) { // Parse the HTTP request Request req = Parser::parse(request_data); if (!req.valid) { send_error_response(client_fd, "Bad Request", 400); return; } Response response; // Try to handle with router first if (router.handle(req, response)) { // Handle session management std::string_view existing_id = sessions.extract_session_id(req); std::string session_id = existing_id.empty() ? sessions.create() : std::string(existing_id); set_session_cookie(response, session_id); send_response(client_fd, response, req.version); return; } // Try static file handler if available if (static_handler && static_handler->handle(req, response)) { send_response(client_fd, response, req.version); return; } // No handler found - return 404 response.status = 404; response.set_text("Not Found"); send_response(client_fd, response, req.version); } void set_session_cookie(Response& response, const std::string& session_id) { // Set secure session cookie response.cookies.push_back("session_id=" + session_id + "; HttpOnly; Path=/; SameSite=Strict"); } void send_response(int client_fd, const Response& response, string_view version) { // Build HTTP response string std::string http_response = ResponseBuilder::build_response(response, version); // Use the new epoll library's buffered send method if (!socket.send_data(client_fd, http_response.data(), http_response.size())) { // Send failed - connection probably closed // Library will handle cleanup automatically } } void send_error_response(int client_fd, const std::string& message, int status) { // Fast path for error responses std::string response = ResponseBuilder::build_error_response(status, message); // Use the new epoll library's send method socket.send_data(client_fd, response.data(), response.size()); } }; uint16_t port_; Router& router_; std::vector> workers_; };