boost写的异步客户端样例代码修改为支持断开重连的代码
考虑到boost的工业级强度,因此就直接用了,代码的官方示例地址:https://www.boost.org/doc/libs/1_55_0/doc/html/boost_asio/examples/cpp11_examples.html
用起来还是挺方便的,代码量少,稳定性高,速度快。
后来实际过程中希望能支持断开生连的功能,比如客户端先启动,服务器后启动,希望服务器起来后,客户端立即连上去。网络波动的情况下,客户端有可能断开,断开后立即再连接上去。
原有的示例代码不能实现以上两个功能,经过研究发现异步连接时,如果成功才进行do_read_header(),那不成功时再进行do_connect即可
然后在类中设置一个连接标识is_connected_, 当发生断开时,将连接标识置为false,外部不断检测此标识,发现标识为false,则重新启动整个客户端即可
修改的完整代码, 需要服务器测试请到刚开始给的网址去下载:
// // chat_client.cpp // ~~~~~~~~~~~~~~~ // // Copyright (c) 2003-2013 Christopher M. Kohlhoff (chris at kohlhoff 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) // https://www.boost.org/doc/libs/1_55_0/doc/html/boost_asio/examples/cpp11_examples.html #include <cstdlib> #include <deque> #include <iostream> #include <thread> #include <boost/asio.hpp> #include "chat_message.hpp" using boost::asio::ip::tcp; typedef std::deque<chat_message> chat_message_queue; class chat_client { public: chat_client(boost::asio::io_service& io_service, tcp::resolver::iterator endpoint_iterator) : io_service_(io_service), socket_(io_service) { is_connected_ = false; do_connect(endpoint_iterator); } void write(const chat_message& msg) { io_service_.post( [this, msg]() { bool write_in_progress = !write_msgs_.empty(); write_msgs_.push_back(msg); if (!write_in_progress) { do_write(); } }); } void close() { io_service_.post([this]() { close_socket(); }); } bool get_connected() const { return is_connected_; } private: void do_connect(tcp::resolver::iterator endpoint_iterator) { boost::asio::async_connect(socket_, endpoint_iterator, [this, endpoint_iterator](boost::system::error_code ec, tcp::resolver::iterator) { if (!ec) { is_connected_ = true; do_read_header(); } else { do_connect(endpoint_iterator); } }); } void do_read_header() { boost::asio::async_read(socket_, boost::asio::buffer(read_msg_.data(), chat_message::header_length), [this](boost::system::error_code ec, std::size_t /*length*/) { if (!ec && read_msg_.decode_header()) { do_read_body(); } else { close_socket(); } }); } void close_socket() { socket_.close(); is_connected_ = false; } void do_read_body() { boost::asio::async_read(socket_, boost::asio::buffer(read_msg_.body(), read_msg_.body_length()), [this](boost::system::error_code ec, std::size_t /*length*/) { if (!ec) { std::cout.write(read_msg_.body(), read_msg_.body_length()); std::cout << "\n"; do_read_header(); } else { close_socket(); } }); } void do_write() { boost::asio::async_write(socket_, boost::asio::buffer(write_msgs_.front().data(), write_msgs_.front().length()), [this](boost::system::error_code ec, std::size_t /*length*/) { if (!ec) { write_msgs_.pop_front(); if (!write_msgs_.empty()) { do_write(); } } else { close_socket(); } }); } private: bool is_connected_; boost::asio::io_service& io_service_; tcp::socket socket_; chat_message read_msg_; chat_message_queue write_msgs_; }; int main(int argc, char* argv[]) { if (argc != 3) { std::cerr << "Usage: chat_client <host> <port>\n"; return 1; } while (true) { try { boost::asio::io_service io_service; tcp::resolver resolver(io_service); auto endpoint_iterator = resolver.resolve({ argv[1], argv[2] }); chat_client c(io_service, endpoint_iterator); std::thread t([&io_service]() { io_service.run(); }); // char line[chat_message::max_body_length + 1]; // while (std::cin.getline(line, chat_message::max_body_length + 1)) // { // chat_message msg; // msg.body_length(std::strlen(line)); // std::memcpy(msg.body(), line, msg.body_length()); // msg.encode_header(); // c.write(msg); // } while (c.get_connected()) { std::this_thread::sleep_for(std::chrono::milliseconds(1)); } c.close(); t.join(); } catch (std::exception& e) { std::cerr << "Exception: " << e.what() << "\n"; } } return 0; }
