#include #include #include #include "acl_cpp/lib_acl.hpp" static std::vector __topics; static bool handle_connack(acl::mqtt_client& conn, const acl::mqtt_message& message) { const acl::mqtt_connack& connack = (const acl::mqtt_connack&) message; printf("%s => connect code=%d\r\n", __FUNCTION__, connack.get_connack_code()); acl::mqtt_subscribe subscribe; subscribe.set_pkt_id(100); for (std::vector::const_iterator cit = __topics.begin(); cit != __topics.end(); ++cit) { subscribe.add_topic(*cit, acl::MQTT_QOS1); printf(" %s: add topic -> %s\r\n", __FUNCTION__, (*cit).c_str()); } if (conn.send(subscribe)) { printf("send subscribe ok\r\n"); return true; } printf("send subscribe error\r\n"); return false; } static bool handle_suback(acl::mqtt_client& conn, const acl::mqtt_message& message) { const acl::mqtt_suback& suback = (const acl::mqtt_suback&) message; unsigned short pkt_id = suback.get_pkt_id(); printf("%s => pkt_id=%d\r\n", __FUNCTION__, pkt_id); const std::vector& qoses = suback.get_qoses(); for (std::vector::const_iterator cit = qoses.begin(); cit != qoses.end(); ++cit) { printf(" qos=%d\r\n", (int) *cit); } acl::mqtt_pingreq pingreq; if (!conn.send(pingreq)) { printf("send pingreq error\r\n"); return false; } printf("%s => send pingreq ok\r\n", __FUNCTION__); return true; } static bool handle_publish(acl::mqtt_client& conn, const acl::mqtt_message& message) { const acl::mqtt_publish& publish = (const acl::mqtt_publish&) message; const acl::string& payload = publish.get_payload(); printf("topic: %s, qos: %d, pkt_id: %d, payload: %s\r\n", publish.get_topic(), (int) publish.get_header().get_qos(), publish.get_pkt_id(), payload.c_str()); if (publish.get_header().get_qos() == acl::MQTT_QOS0) { return true; } acl::mqtt_puback puback; puback.set_pkt_id(publish.get_pkt_id()); if (!conn.send(puback)) { printf("%s => puback error, pkt_id=%d\r\n", __FUNCTION__, puback.get_pkt_id()); return false; } printf("%s => puback ok, pkt_id=%d\r\n", __FUNCTION__, puback.get_pkt_id()); return true; } static bool handle_pingreq(acl::mqtt_client& conn) { acl::mqtt_pingresp pingresp; if (conn.send(pingresp)) { return true; } printf("%s => send pingresp error\r\n", __FUNCTION__); return false; } static bool handle_pingresp(void) { printf("%s => got pingresp\r\n", __FUNCTION__); return true; } static bool handle_disconnect(acl::mqtt_message&) { printf("%s => disconnect\r\n", __FUNCTION__); return false; } static bool handle_message(acl::mqtt_client& conn, acl::mqtt_message& message) { acl::mqtt_type_t type = message.get_header().get_type(); switch (type) { case acl::MQTT_CONNACK: return handle_connack(conn, message); case acl::MQTT_PINGREQ: return handle_pingreq(conn); case acl::MQTT_PINGRESP: return handle_pingresp(); case acl::MQTT_DISCONNECT: return handle_disconnect(message); case acl::MQTT_SUBACK: return handle_suback(conn, message); case acl::MQTT_PUBLISH: return handle_publish(conn, message); default: printf("unknown type=%d\r\n", (int) type); return false; } } static void usage(const char* procname) { printf("usage: %s -h [help] -s addr\r\n", procname); } int main(int argc, char* argv[]) { char ch; acl::string addr; while ((ch = getopt(argc, argv, "hs:")) > 0) { switch (ch) { case 'h': usage(argv[0]); return 0; case 's': addr = optarg; break; default: break; } } if (addr.empty()) { usage(argv[0]); return 1; } acl::log::stdout_open(true); printf("optind: %d, argc: %d\n", optind, argc); for (int i = optind; i < argc; i++) { printf("add one topic: %s\r\n", argv[i]); __topics.push_back(argv[i]); } if (__topics.empty()) { __topics.push_back("test/topic"); } acl::mqtt_connect message; message.set_cid("client-id-test-xxx"); message.set_username("user-zsx"); //message.set_passwd("pass"); #if 0 message.set_will_qos(acl::MQTT_QOS0); message.set_will_topic("test/topic"); message.set_will_msg("msg-hello"); #endif printf("-----------------------------------------------\r\n"); acl::mqtt_client conn(addr, 10, 0); if (!conn.send(message)) { printf("send message error\r\n"); return 1; } printf("send message ok\r\n"); while (true) { acl::mqtt_message* res = conn.get_message(); if (res == NULL) { printf("read message error\r\n"); break; } //printf("-----------------------------------------------\r\n"); //printf("read one message\r\n"); if (!handle_message(conn, *res)) { delete res; break; } delete res; } return 0; }