// // Copyright (c) 2019-2022 Ruben Perez Hidalgo (rubenperez038 at gmail dot com) // // Distributed under the Boost Software License, Version 1.0. (See accompanying // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // //[example_query_async_coroutines #include #include #include #include #include #include #include using boost::mysql::error_code; using boost::mysql::error_info; void print_employee(const boost::mysql::row& employee) { std::cout << "Employee '" << employee.fields()[0] << " " // first_name (type boost::string_view) << employee.fields()[1] << "' earns " // last_name (type boost::string_view) << employee.fields()[2] << " dollars yearly\n"; // salary (type double) } // Throws an exception if an operation failed void check_error( const error_code& err, const error_info& info = {} ) { if (err) { throw boost::system::system_error(err, info.message()); } } void main_impl(int argc, char** argv) { if (argc != 4) { std::cerr << "Usage: " << argv[0] << "

\n"; exit(1); } const char* hostname = argv[3]; // I/O context and connection. We use SSL because MySQL 8+ default settings require it. boost::asio::io_context ctx; boost::asio::ssl::context ssl_ctx (boost::asio::ssl::context::tls_client); boost::mysql::tcp_ssl_connection conn (ctx, ssl_ctx); // Connection params boost::mysql::connection_params params ( argv[1], // username argv[2], // password "boost_mysql_examples" // database to use; leave empty or omit the parameter for no database ); // Resolver for hostname resolution boost::asio::ip::tcp::resolver resolver (ctx.get_executor()); /** * The entry point. We spawn a stackful coroutine using boost::asio::spawn. * * The coroutine will actually start running when we call io_context::run(). * It will suspend every time we call one of the asynchronous functions, saving * all information it needs for resuming. When the asynchronous operation completes, * the coroutine will resume in the point it was left. * * The return type of a coroutine is the second argument to the handler signature * for the asynchronous operation. For example, connection::query has a handler * signature of void(error_code, resultset), so the coroutine return * type is resultset. * */ boost::asio::spawn(ctx.get_executor(), [&conn, &resolver, params, hostname](boost::asio::yield_context yield) { // This error_code and error_info will be filled if an // operation fails. We will check them for every operation we perform. boost::mysql::error_code ec; boost::mysql::error_info additional_info; // Hostname resolution auto endpoints = resolver.async_resolve(hostname, boost::mysql::default_port_string, yield[ec]); check_error(ec); // Connect to server conn.async_connect(*endpoints.begin(), params, additional_info, yield[ec]); check_error(ec); // Issue the query to the server const char* sql = "SELECT first_name, last_name, salary FROM employee WHERE company_id = 'HGS'"; boost::mysql::tcp_ssl_resultset result = conn.async_query(sql, additional_info, yield[ec]); check_error(ec, additional_info); /** * Get all rows in the resultset. We will employ resultset::async_read_one(), * which reads a single row at every call. The row is read in-place, preventing * unnecessary copies. resultset::async_read_one() returns true if a row has been * read, false if no more rows are available or an error occurred. */ boost::mysql::row row; while (result.async_read_one(row, additional_info, yield[ec])) { check_error(ec, additional_info); print_employee(row); } // Notify the MySQL server we want to quit, then close the underlying connection. conn.async_close(additional_info, yield[ec]); check_error(ec, additional_info); }); // Don't forget to call run()! Otherwise, your program // will not spawn the coroutine and will do nothing. ctx.run(); } int main(int argc, char** argv) { try { main_impl(argc, argv); } catch (const boost::system::system_error& err) { std::cerr << "Error: " << err.what() << ", error code: " << err.code() << std::endl; return 1; } catch (const std::exception& err) { std::cerr << "Error: " << err.what() << std::endl; return 1; } } //]