/* * TcpClient_test.cpp * * @build make evpp * @server bin/TcpServer_test 1234 * @client bin/TcpClient_test 1234 * */ #include #include "TcpClient.h" #include "htime.h" #define TEST_RECONNECT 1 #define TEST_TLS 0 using namespace hv; int main(int argc, char* argv[]) { if (argc < 2) { printf("Usage: %s remote_port [remote_host]\n", argv[0]); return -10; } int remote_port = atoi(argv[1]); const char* remote_host = "127.0.0.1"; if (argc > 2) { remote_host = argv[2]; } TcpClient cli; int connfd = cli.createsocket(remote_port, remote_host); if (connfd < 0) { return -20; } printf("client connect to port %d, connfd=%d ...\n", remote_port, connfd); cli.onConnection = [&cli](const SocketChannelPtr& channel) { std::string peeraddr = channel->peeraddr(); if (channel->isConnected()) { printf("connected to %s! connfd=%d\n", peeraddr.c_str(), channel->fd()); // send(time) every 3s setInterval(3000, [channel](TimerID timerID){ if (channel->isConnected()) { if (channel->isWriteComplete()) { char str[DATETIME_FMT_BUFLEN] = {0}; datetime_t dt = datetime_now(); datetime_fmt(&dt, str); channel->write(str); } } else { killTimer(timerID); } }); } else { printf("disconnected to %s! connfd=%d\n", peeraddr.c_str(), channel->fd()); } if (cli.isReconnect()) { printf("reconnect cnt=%d, delay=%d\n", cli.reconn_setting->cur_retry_cnt, cli.reconn_setting->cur_delay); } }; cli.onMessage = [](const SocketChannelPtr& channel, Buffer* buf) { printf("< %.*s\n", (int)buf->size(), (char*)buf->data()); }; #if TEST_RECONNECT // reconnect: 1,2,4,8,10,10,10... reconn_setting_t reconn; reconn_setting_init(&reconn); reconn.min_delay = 1000; reconn.max_delay = 10000; reconn.delay_policy = 2; cli.setReconnect(&reconn); #endif #if TEST_TLS cli.withTLS(); #endif cli.start(); std::string str; while (std::getline(std::cin, str)) { if (str == "close") { cli.closesocket(); } else if (str == "start") { cli.start(); } else if (str == "stop") { cli.stop(); break; } else { if (!cli.isConnected()) break; cli.send(str); } } return 0; }