十、day10
今天学习如何使用jsoncpp将json数据解析为c++对象,将c++对象序列化为json数据。jsoncp经常在网络通信中使用,也就是服务器和客户端的通信一般使用json(可视化好);而protobuf一般在服务器之间的通信中使用
jsoncpp下载地址:open-source-parsers/jsoncpp: A C++ library for interacting with JSON. (github.com)
jsoncpp如何配置使用可参考博主
恋恋风辰官方博客llfc.club/category?catid=225RaiVNI8pFDD5L4m807g7ZwmF#!aid/2Q5XIMAjJ76n2snyNEHstog2W9b
1.如果从github上下载最新版本,cmake编译后使用jsoncpp库,博主恋恋风辰给出的示例代码会造成内存泄漏,应该是最新版的库内部做了一些调整,该问题我没有解决,使用的仍是旧版本的jsoncpp。
2.如果旧版本的jsoncpp没有x64平台,需要自己在管理那里添加设置,确保平台和线程使用的统一性。
3.客户端和服务器做如下调整:
客户端
客户端和服务器都需要包含库目录和包含目录,比如
且需要在链接器→输入→附加依赖项中,添加需要的库
libprotobufd.lib
libprotocd.lib
json_vc71_libmtd.lib客户端代码做以下调整
#include <boost/asio.hpp>
#include <iostream>
#include <json/json.h>
#include <json/value.h>
#include <json/reader.h>using namespace boost::asio::ip;
using std::cout;
using std::endl;
const int MAX_LENGTH = 1024 * 2; // 发送和接收的长度为1024 * 2字节
const int HEAD_LENGTH = 2;int main()
{try {boost::asio::io_context ioc; // 创建上下文服务// 127.0.0.1是本机的回路地址,也就是服务器和客户端在一个机器上tcp::endpoint remote_ep(address::from_string("127.0.0.1"), 10086); // 构造endpointtcp::socket sock(ioc);boost::system::error_code error = boost::asio::error::host_not_found; // 错误:主机未找到sock.connect(remote_ep, error);if (error) {cout << "connect failed, code is " << error.value() << " error msg is " << error.message();return 0;}Json::Value root;root["id"] = 1001;root["data"] = "hello world";std::string request = root.toStyledString();size_t request_length = request.length();char send_data[MAX_LENGTH] = { 0 };//转为网络字节序int request_host_length = boost::asio::detail::socket_ops::host_to_network_short(request_length);memcpy(send_data, &request_host_length, 2);memcpy(send_data + 2, request.c_str(), request_length);boost::asio::write(sock, boost::asio::buffer(send_data, request_length + 2));char reply_head[HEAD_LENGTH]; // 首先读取对端发送消息的总长度size_t reply_length = boost::asio::read(sock, boost::asio::buffer(reply_head, HEAD_LENGTH));short msglen = 0; // 消息总长度memcpy(&msglen, reply_head, HEAD_LENGTH); // 将消息总长度赋值给msglen//转为本地字节序msglen = boost::asio::detail::socket_ops::network_to_host_short(msglen);char msg[MAX_LENGTH] = { 0 }; // 构建消息体(不含消息总长度)size_t msg_length = boost::asio::read(sock, boost::asio::buffer(msg, msglen));Json::Reader reader;reader.parse(std::string(msg, msg_length), root);std::cout << "msg id is " << root["id"] << " msg is " << root["data"] << endl;std::getchar();}catch (std::exception& e) {std::cerr << "Exception: " << e.what() << endl;}return 0;
}
服务器
服务也通常和客户端做相同的设置,包含库。并在回调读函数中新加这样一段
//jsoncpp序列化Json::Reader reader;Json::Value root;reader.parse(std::string(_recv_msg_node->_msg, _recv_msg_node->_total_len), root);std::cout << "recevie msg id is " << root["id"].asInt() << " msg data is "<< root["data"].asString() << endl;root["data"] = "Server has received msg, msg data is " + root["data"].asString();std::string return_str = root.toStyledString();Send_protoc(return_str);
完整的回调读函数如下:
void CSession::handle_read(const boost::system::error_code& error, size_t bytes_transferred,std::shared_ptr<CSession> _self_shared) {if (!error) {// 打印缓存区的数据并将该线程暂停2s//PrintRecvData(_data, bytes_transferred);//std::chrono::milliseconds dura(2000);//std::this_thread::sleep_for(dura);// 每触发一次handale_read,它会返回实际读取的字节数bytes_transferred,copy_len表示已处理的长度,每处理一字节,copy_len便加一int copy_len = 0; // 已经处理的字符数while (bytes_transferred > 0) { // 只要读取到数据就对其处理if (!_b_head_parse) { // 判断消息头部是否已处理,_b_head_parse默认为false// 异步读取到的字节数 + 已接收到的头部长度 < 头部总长度if (bytes_transferred + _recv_head_node->_cur_len < HEAD_LENGTH) { // 收到的数据长度小于头部长度,说明头部还未全部读取// 如果未完全接收消息头,则将接收到的数据复制到头部缓冲区// _recv_head_node->_msg,更新当前头部的接收长度,并继续异步读取剩余数据。memcpy(_recv_head_node->_msg + _recv_head_node->_cur_len, _data + copy_len, bytes_transferred);_recv_head_node->_cur_len += bytes_transferred;// 缓冲区清零,无需更新copy_len追踪已处理的字符数,因为之前读取的数据已经全部写入头部节点,下一个// 读入的消息从头开始(copy_len=0)往头节点写::memset(_data, 0, MAX_LENGTH);// 继续读消息_socket.async_read_some(boost::asio::buffer(_data, MAX_LENGTH), std::bind(&CSession::headle_read, this,std::placeholders::_1, std::placeholders::_2, _self_shared));return;}// 如果接收到的数据量足够处理消息头部,则计算头部剩余的未接收字节,// 并将其从 _data 缓冲区复制到头部消息缓冲区 _recv_head_node->_msgint head_remain = HEAD_LENGTH - _recv_head_node->_cur_len; // 头部剩余未复制的长度// 填充头部节点memcpy(_recv_head_node->_msg + _recv_head_node->_cur_len, _data + copy_len, head_remain);copy_len += head_remain; // 更新已处理的data长度bytes_transferred -= head_remain; // 更新剩余未处理的长度short data_len = 0; // 获取头部数据(消息长度)memcpy(&data_len, _recv_head_node->_msg, HEAD_LENGTH);//网络字节序转化为本地字节序data_len = boost::asio::detail::socket_ops::network_to_host_short(data_len);cout << "data_len is " << data_len << endl;if (data_len > MAX_LENGTH) { // 判断头部长度是否非法std::cout << "invalid data length is " << data_len << endl;_server->ClearSession(_uuid);return;}_recv_msg_node = std::make_shared<MsgNode>(data_len); // 已知数据长度data_len,构建消息内容载体//消息的长度小于头部规定的长度,说明数据未收全,则先将部分消息放到接收节点里if (bytes_transferred < data_len) {memcpy(_recv_msg_node->_msg + _recv_msg_node->_cur_len, _data + copy_len, bytes_transferred);_recv_msg_node->_cur_len += bytes_transferred;// copy_len不用更新,缓冲区会清零,下一个读入data的数据从头开始写入,copy_len也会被初始化为0::memset(_data, 0, MAX_LENGTH);_socket.async_read_some(boost::asio::buffer(_data, MAX_LENGTH),std::bind(&CSession::headle_read, this, std::placeholders::_1, std::placeholders::_2, _self_shared));_b_head_parse = true; //头部处理完成return;}// 接收的长度多于消息内容长度memcpy(_recv_msg_node->_msg + _recv_msg_node->_cur_len, _data + copy_len, data_len);_recv_msg_node->_cur_len += data_len;copy_len += data_len;bytes_transferred -= data_len;_recv_msg_node->_msg[_recv_msg_node->_total_len] = '\0';// cout << "receive data is " << _recv_msg_node->_msg << endl;// protobuf序列化//MsgData msgdata;//std::string receive_data;//msgdata.ParseFromString(std::string(_recv_msg_node->_msg, _recv_msg_node->_total_len));//std::cout << "receive msg id is " << msgdata.id () << " msg data is " << msgdata.data() << endl;//std::string return_str = "Server has received msg, msg data is " + msgdata.data();//MsgData msgreturn;//msgreturn.set_id(msgdata.id());//msgreturn.set_data(return_str);//msgreturn.SerializeToString(&return_str);//Send_protoc(return_str);// jsoncpp序列化Json::Reader reader;Json::Value root;reader.parse(std::string(_recv_msg_node->_msg, _recv_msg_node->_total_len), root);std::cout << "recevie msg id is " << root["id"].asInt() << " msg data is "<< root["data"].asString() << endl;root["data"] = "Server has received msg, msg data is " + root["data"].asString();std::string return_str = root.toStyledString();Send_protoc(return_str);//Send(_recv_msg_node->_msg, _recv_msg_node->_total_len); // 回传// 清理已处理的头部消息并重置,准备解析下一条消息_b_head_parse = false;_recv_head_node->Clear();// 如果当前数据已经全部处理完,重置缓冲区 _data,并继续异步读取新的数据if (bytes_transferred <= 0) {::memset(_data, 0, MAX_LENGTH);_socket.async_read_some(boost::asio::buffer(_data, MAX_LENGTH),std::bind(&CSession::headle_read, this, std::placeholders::_1, std::placeholders::_2, _self_shared));return;}continue; // 异步读取的消息未处理完,继续填充头节点乃至新的消息节点}//已经处理完头部,处理上次未接受完的消息数据int remain_msg = _recv_msg_node->_total_len - _recv_msg_node->_cur_len;if (bytes_transferred < remain_msg) { //接收的数据仍不足剩余未处理的memcpy(_recv_msg_node->_msg + _recv_msg_node->_cur_len, _data + copy_len, bytes_transferred);_recv_msg_node->_cur_len += bytes_transferred;::memset(_data, 0, MAX_LENGTH);_socket.async_read_some(boost::asio::buffer(_data, MAX_LENGTH),std::bind(&CSession::headle_read, this, std::placeholders::_1, std::placeholders::_2, _self_shared));return;}// 接收的数据多于剩余未处理的长度memcpy(_recv_msg_node->_msg + _recv_msg_node->_cur_len, _data + copy_len, remain_msg);_recv_msg_node->_cur_len += remain_msg;bytes_transferred -= remain_msg;copy_len += remain_msg;_recv_msg_node->_msg[_recv_msg_node->_total_len] = '\0';//cout << "receive data is " << _recv_msg_node->_msg << endl;// protobuf序列化//MsgData msgdata;//std::string receive_data;//msgdata.ParseFromString(std::string(_recv_msg_node->_msg, _recv_msg_node->_total_len));//std::cout << "receive msg id is " << msgdata.id() << " msg data is " << msgdata.data() << endl;//std::string return_str = "Server has received msg, msg data is " + msgdata.data();//MsgData msgreturn;//msgreturn.set_id(msgdata.id());//msgreturn.set_data(return_str);//msgreturn.SerializeToString(&return_str);//Send_protoc(return_str);//jsoncpp序列化Json::Reader reader;Json::Value root;reader.parse(std::string(_recv_msg_node->_msg, _recv_msg_node->_total_len), root);std::cout << "recevie msg id is " << root["id"].asInt() << " msg data is "<< root["data"].asString() << endl;root["data"] = "Server has received msg, msg data is " + root["data"].asString();std::string return_str = root.toStyledString();Send_protoc(return_str);//此处可以调用Send发送测试//Send(_recv_msg_node->_msg, _recv_msg_node->_total_len);//继续轮询剩余未处理数据_b_head_parse = false;_recv_head_node->Clear();if (bytes_transferred <= 0) {::memset(_data, 0, MAX_LENGTH);_socket.async_read_some(boost::asio::buffer(_data, MAX_LENGTH),std::bind(&CSession::headle_read, this, std::placeholders::_1, std::placeholders::_2, _self_shared));return;}continue;}}else {std::cout << "handle read failed, error is " << error.what() << endl;Close();_server->ClearSession(_uuid);}
}