#include "main.h" #include "user_gpio.h" #include "user_wifi.h" #include "time_server/user_rtc.h" #include "user_power.h" #include "mqtt_server/user_mqtt_client.h" #include "http_server/app_httpd.h" #include "timed_task/timed_task.h" char rtc_init = 0; //sntp校时成功标志位 uint32_t total_time = 0; char str_mac[16] = { 0 }; system_config_t* sys_config; user_config_t* user_config; mico_gpio_t Relay[Relay_NUM] = { Relay_0, Relay_1, Relay_2, Relay_3, Relay_4, Relay_5 }; /* MICO system callback: Restore default configuration provided by application */ void appRestoreDefault_callback(void * const user_config_data, uint32_t size) { UNUSED_PARAMETER(size); mico_system_context_get()->micoSystemConfig.name[0] = 1; //在下次重启时使用默认名称 mico_system_context_get()->micoSystemConfig.name[1] = 0; user_config_t* userConfigDefault = user_config_data; userConfigDefault->user[0] = 0; userConfigDefault->mqtt_ip[0] = 0; userConfigDefault->mqtt_port = 0; userConfigDefault->mqtt_user[0] = 0; userConfigDefault->mqtt_password[0] = 0; userConfigDefault->version = USER_CONFIG_VERSION; int i; for (i = 0; i < SOCKET_NUM; i++) { userConfigDefault->socket_status[i] = 1; } //mico_system_context_update(sys_config); } int application_start(void) { int i; tc1_log("start version[%s]", VERSION); //char main_num=0; OSStatus err = kNoErr; // Create mico system context and read application's config data from flash sys_config = mico_system_context_init(sizeof(user_config_t)); user_config = ((system_context_t*)sys_config)->user_config_data; require_action(user_config, exit, err = kNoMemoryErr); err = mico_system_init(sys_config); require_noerr(err, exit); uint8_t mac[8]; mico_wlan_get_mac_address(mac); sprintf(str_mac, "%02X%02X%02X%02X%02X%02X", mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]); tc1_log("str_mac[%s]", str_mac); bool open_ap = false; MicoGpioInitialize((mico_gpio_t)Button, INPUT_PULL_UP); if (!MicoGpioInputGet(Button)) { //开机时按钮状态 tc1_log("press ap_init"); ApInit(false); open_ap = true; } MicoGpioInitialize((mico_gpio_t) Led, OUTPUT_PUSH_PULL); for (i = 0; i < Relay_NUM; i++) { MicoGpioInitialize(Relay[i], OUTPUT_PUSH_PULL); UserRelaySet(i, user_config->socket_status[i]); } MicoSysLed(0); if (user_config->version != USER_CONFIG_VERSION) { tc1_log("WARNGIN: user params restored!"); err = mico_system_context_restore(sys_config); require_noerr(err, exit); } if (sys_config->micoSystemConfig.name[0] == 1) { sprintf(sys_config->micoSystemConfig.name, ZTC1_NAME, str_mac+8); } tc1_log("user:%s",user_config->user); tc1_log("device name:%s",sys_config->micoSystemConfig.name); tc1_log("mqtt_ip:%s",user_config->mqtt_ip); tc1_log("mqtt_port:%d",user_config->mqtt_port); tc1_log("mqtt_user:%s",user_config->mqtt_user); tc1_log("mqtt_password:%s",user_config->mqtt_password); tc1_log("version:%d",user_config->version); WifiInit(); if (!open_ap) { if (sys_config->micoSystemConfig.reserved != NOTIFY_STATION_UP) { ApInit(true); } else { WifiConnect(sys_config->micoSystemConfig.ssid, sys_config->micoSystemConfig.user_key); } } KeyInit(); err = UserMqttInit(); require_noerr(err, exit); err = UserRtcInit(); require_noerr(err, exit); PowerInit(); AppHttpdStart(); // start http server thread while (1) { UserMqttHassPower(); time_t now = time(NULL); if (task_top && now >= task_top->prs_time) { tc1_log("process task time[%ld] socket_idx[%d] on[%d]", task_top->prs_time, task_top->socket_idx, task_top->on); UserRelaySet(task_top->socket_idx, task_top->on); DelFirstTask(); } mico_thread_msleep(1000); } exit: tc1_log("application_start ERROR!"); return 0; }