Example #1
0
void user_key1_init(void)
{
   MicoGpioInitialize( (mico_gpio_t)USER_KEY1, INPUT_PULL_UP );
   mico_init_timer(&_user_key1_timer, user_key1_long_press_timeout, _user_key1_timeout_handler, NULL);
   MicoGpioEnableIRQ( (mico_gpio_t)USER_KEY1, IRQ_TRIGGER_FALLING_EDGE, _user_key1_irq_handler, NULL );
}
Example #2
0
int application_start(void)
{
  OSStatus err = kNoErr;
  net_para_st para;

  Platform_Init();
  /*Read current configurations*/
  context = ( mico_Context_t *)malloc(sizeof(mico_Context_t) );
  require_action( context, exit, err = kNoMemoryErr );
  memset(context, 0x0, sizeof(mico_Context_t));
  mico_rtos_init_mutex(&context->flashContentInRam_mutex);
  mico_rtos_init_semaphore(&context->micoStatus.sys_state_change_sem, 1); 

  MICOReadConfiguration( context );

  err = MICOInitNotificationCenter  ( context );

  err = MICOAddNotification( mico_notify_READ_APP_INFO, (void *)micoNotify_ReadAppInfoHandler );
  require_noerr( err, exit );  
  
  /*wlan driver and tcpip init*/
  mxchipInit();
  getNetPara(&para, Station);
  formatMACAddr(context->micoStatus.mac, (char *)&para.mac);
  
  mico_log_trace(); 
  mico_log("%s mxchipWNet library version: %s", APP_INFO, system_lib_version());

  /*Start system monotor thread*/
  err = MICOStartSystemMonitor(context);
  require_noerr_action( err, exit, mico_log("ERROR: Unable to start the system monitor.") );
  
  err = MICORegisterSystemMonitor(&mico_monitor, APPLICATION_WATCHDOG_TIMEOUT_SECONDS*1000);
  require_noerr( err, exit );
  mico_init_timer(&_watchdog_reload_timer,APPLICATION_WATCHDOG_TIMEOUT_SECONDS*1000-100, _watchdog_reload_timer_handler, NULL);
  mico_start_timer(&_watchdog_reload_timer);
  
  if(context->flashContentInRam.micoSystemConfig.configured != allConfigured){
    mico_log("Empty configuration. Starting configuration mode...");

#ifdef CONFIG_MODE_EASYLINK
    err = startEasyLink( context );
    require_noerr( err, exit );
#endif

#ifdef CONFIG_MODE_WAC
    err = startMfiWac( context );
    require_noerr( err, exit );
#endif
  }
  else{
    mico_log("Available configuration. Starting Wi-Fi connection...");
    
    /* Regisist notifications */
    err = MICOAddNotification( mico_notify_WIFI_STATUS_CHANGED, (void *)micoNotify_WifiStatusHandler );
    require_noerr( err, exit ); 
    
    err = MICOAddNotification( mico_notify_WiFI_PARA_CHANGED, (void *)micoNotify_WiFIParaChangedHandler );
    require_noerr( err, exit ); 

    err = MICOAddNotification( mico_notify_DHCP_COMPLETED, (void *)micoNotify_DHCPCompleteHandler );
    require_noerr( err, exit );  
   
    if(context->flashContentInRam.micoSystemConfig.rfPowerSaveEnable == true){
      ps_enable();
    }

    if(context->flashContentInRam.micoSystemConfig.mcuPowerSaveEnable == true){
      mico_mcu_powersave_config(true);
    }

    /*Bonjour service for searching*/
    if(context->flashContentInRam.micoSystemConfig.bonjourEnable == true){
      err = MICOStartBonjourService( Station, context );
      require_noerr( err, exit );
    }

    /*Local configuration server*/
    if(context->flashContentInRam.micoSystemConfig.configServerEnable == true){
      err =  MICOStartConfigServer(context);
      require_noerr_action( err, exit, mico_log("ERROR: Unable to start the local server thread.") );
    }

    /*Start mico application*/
    err = MICOStartApplication( context );
    require_noerr( err, exit );
    
    _ConnectToAP( context );
  }


  /*System status changed*/
  while(mico_rtos_get_semaphore(&context->micoStatus.sys_state_change_sem, MICO_WAIT_FOREVER)==kNoErr){
    switch(context->micoStatus.sys_state){
      case eState_Normal:
        break;
      case eState_Software_Reset:
        sendNotifySYSWillPowerOff();
        mico_thread_msleep(500);
        PlatformSoftReboot();
        break;
      case eState_Wlan_Powerdown:
        sendNotifySYSWillPowerOff();
        mico_thread_msleep(500);
        wifi_power_down();
        break;
      case eState_Standby:
        mico_log("Enter standby mode");
        sendNotifySYSWillPowerOff();
        mico_thread_msleep(100);
        wifi_power_down();
        Platform_Enter_STANDBY();
        break;
      default:
        break;
    }
  }
    
  require_noerr_action( err, exit, mico_log("Closing main thread with err num: %d.", err) );

exit:
  mico_rtos_delete_thread(NULL);
  return kNoErr;
}
Example #3
0
int application_start(void)
{
  OSStatus err = kNoErr;
  net_para_st para;

  Platform_Init();
  /*Read current configurations*/
  context = ( mico_Context_t *)malloc(sizeof(mico_Context_t) );
  require_action( context, exit, err = kNoMemoryErr );
  memset(context, 0x0, sizeof(mico_Context_t));
  mico_rtos_init_mutex(&context->flashContentInRam_mutex);
  mico_rtos_init_semaphore(&context->micoStatus.sys_state_change_sem, 1); 

  MICOReadConfiguration( context );

  err = MICOInitNotificationCenter  ( context );

  err = MICOAddNotification( mico_notify_READ_APP_INFO, (void *)micoNotify_ReadAppInfoHandler );
  require_noerr( err, exit );  
  
  /*wlan driver and tcpip init*/
  mxchipInit();
  getNetPara(&para, Station);
  formatMACAddr(context->micoStatus.mac, (char *)&para.mac);
  
  mico_log_trace(); 
  mico_log("%s mxchipWNet library version: %s", APP_INFO, system_lib_version());

  /*Start system monotor thread*/
  err = MICOStartSystemMonitor(context);
  require_noerr_action( err, exit, mico_log("ERROR: Unable to start the system monitor.") );
  
  err = MICORegisterSystemMonitor(&mico_monitor, APPLICATION_WATCHDOG_TIMEOUT_SECONDS*1000);
  require_noerr( err, exit );
  mico_init_timer(&_watchdog_reload_timer,APPLICATION_WATCHDOG_TIMEOUT_SECONDS*1000-100, _watchdog_reload_timer_handler, NULL);
  mico_start_timer(&_watchdog_reload_timer);
  
  if(context->flashContentInRam.micoSystemConfig.configured != allConfigured){
    mico_log("Empty configuration. Starting configuration mode...");

#ifdef CONFIG_MODE_EASYLINK
  err = startEasyLink( context );
  require_noerr( err, exit );
#endif

#ifdef CONFIG_MODE_WAC
  WACPlatformParameters_t* WAC_Params = NULL;
  WAC_Params = calloc(1, sizeof(WACPlatformParameters_t));
  require(WAC_Params, exit);

  str2hex((unsigned char *)para.mac, WAC_Params->macAddress, 6);
  WAC_Params->isUnconfigured          = 1;
  WAC_Params->supportsAirPlay         = 0;
  WAC_Params->supportsAirPrint        = 0;
  WAC_Params->supports2_4GHzWiFi      = 1;
  WAC_Params->supports5GHzWiFi        = 0;
  WAC_Params->supportsWakeOnWireless  = 0;

  WAC_Params->firmwareRevision =  FIRMWARE_REVISION;
  WAC_Params->hardwareRevision =  HARDWARE_REVISION;
  WAC_Params->serialNumber =      SERIAL_NUMBER;
  WAC_Params->name =              context->flashContentInRam.micoSystemConfig.name;
  WAC_Params->model =             MODEL;
  WAC_Params->manufacturer =      MANUFACTURER;

  WAC_Params->numEAProtocols =    1;
  WAC_Params->eaBundleSeedID =    BUNDLE_SEED_ID;
  WAC_Params->eaProtocols =       (char **)eaProtocols;;

  err = startMFiWAC( context, WAC_Params, 1200);
  free(WAC_Params);
  require_noerr( err, exit );
#endif
  }
  else{
    mico_log("Available configuration. Starting Wi-Fi connection...");
    
    /* Regisist notifications */
    err = MICOAddNotification( mico_notify_WIFI_STATUS_CHANGED, (void *)micoNotify_WifiStatusHandler );
    require_noerr( err, exit ); 
    
    err = MICOAddNotification( mico_notify_WiFI_PARA_CHANGED, (void *)micoNotify_WiFIParaChangedHandler );
    require_noerr( err, exit ); 

    err = MICOAddNotification( mico_notify_DHCP_COMPLETED, (void *)micoNotify_DHCPCompleteHandler );
    require_noerr( err, exit );  
   
    if(context->flashContentInRam.micoSystemConfig.rfPowerSaveEnable == true){
      ps_enable();
    }

    if(context->flashContentInRam.micoSystemConfig.mcuPowerSaveEnable == true){
      mico_mcu_powersave_config(true);
    }

    /*Bonjour service for searching*/
    // if(context->flashContentInRam.micoSystemConfig.bonjourEnable == true){
    //   err = MICOStartBonjourService( Station, context );
    //   require_noerr( err, exit );
    // }

    err = mico_rtos_create_thread(NULL, MICO_APPLICATION_PRIORITY, "mDNSResponder", mDNSResponder_thread, 0x1000, (void*)context );
    require_noerr_action( err, exit, mico_log("ERROR: Unable to start mDNSResponder thread.") );

    /*Local configuration server*/
    if(context->flashContentInRam.micoSystemConfig.configServerEnable == true){
      err =  MICOStartConfigServer(context);
      require_noerr_action( err, exit, mico_log("ERROR: Unable to start the local server thread.") );
    }

    /*Start mico application*/
    err = MICOStartApplication( context );
    require_noerr( err, exit );
    
    _ConnectToAP( context );
  }


  /*System status changed*/
  while(mico_rtos_get_semaphore(&context->micoStatus.sys_state_change_sem, MICO_WAIT_FOREVER)==kNoErr){
    switch(context->micoStatus.sys_state){
      case eState_Normal:
        break;
      case eState_Software_Reset:
        sendNotifySYSWillPowerOff();
        mico_thread_msleep(500);
        PlatformSoftReboot();
        break;
      case eState_Wlan_Powerdown:
        sendNotifySYSWillPowerOff();
        mico_thread_msleep(500);
        wifi_power_down();
        break;
      case eState_Standby:
        mico_log("Enter standby mode");
        sendNotifySYSWillPowerOff();
        mico_thread_msleep(200);
        wifi_power_down();
        Platform_Enter_STANDBY();
        break;
      default:
        break;
    }
  }
    
  require_noerr_action( err, exit, mico_log("Closing main thread with err num: %d.", err) );

exit:
  mico_rtos_delete_thread(NULL);
  return kNoErr;
}
int application_start(void)
{
  OSStatus err = kNoErr;
  IPStatusTypedef para;
  struct tm currentTime;
  mico_rtc_time_t time;
  char wifi_ver[64];
  mico_log_trace();  
#if 1 
  /*Read current configurations*/
  context = ( mico_Context_t *)malloc(sizeof(mico_Context_t) );
  require_action( context, exit, err = kNoMemoryErr );
  memset(context, 0x0, sizeof(mico_Context_t));
  mico_rtos_init_mutex(&context->flashContentInRam_mutex);
  mico_rtos_init_semaphore(&context->micoStatus.sys_state_change_sem, 1); 

  MICOReadConfiguration( context );

  err = MICOInitNotificationCenter  ( context );

  err = MICOAddNotification( mico_notify_READ_APP_INFO, (void *)micoNotify_ReadAppInfoHandler );
  require_noerr( err, exit );  

  err = MICOAddNotification( mico_notify_WIFI_CONNECT_FAILED, (void *)micoNotify_ConnectFailedHandler );
  require_noerr( err, exit ); 

  err = MICOAddNotification( mico_notify_WIFI_Fatal_ERROR, (void *)micoNotify_WlanFatalErrHandler );
  require_noerr( err, exit ); 

  err = MICOAddNotification( mico_notify_Stack_Overflow_ERROR, (void *)micoNotify_StackOverflowErrHandler );
  require_noerr( err, exit ); 
#endif
  /*wlan driver and tcpip init*/
  MicoInit();
  MicoSysLed(true);
  
  /**********************add ethernet**********************/
  add_ethernet();
  //sleep(5000);
  /*********************************************************/
  
  mico_log("Free memory %d bytes", MicoGetMemoryInfo()->free_memory) ; 

  /* Enter test mode, call a build-in test function amd output on STDIO */
  if(MicoShouldEnterMFGMode()==true)
    mico_mfg_test();

  /*Read current time from RTC.*/
  MicoRtcGetTime(&time);
  currentTime.tm_sec = time.sec;
  currentTime.tm_min = time.min;
  currentTime.tm_hour = time.hr;
  currentTime.tm_mday = time.date;
  currentTime.tm_wday = time.weekday;
  currentTime.tm_mon = time.month - 1;
  currentTime.tm_year = time.year + 100;
  mico_log("Current Time: %s",asctime(&currentTime));

  micoWlanGetIPStatus(&para, Station);
  formatMACAddr(context->micoStatus.mac, (char *)&para.mac);
  MicoGetRfVer(wifi_ver, sizeof(wifi_ver));
  mico_log("%s mxchipWNet library version: %s", APP_INFO, MicoGetVer());
  mico_log("Wi-Fi driver version %s, mac %s", wifi_ver, context->micoStatus.mac);

  /*Start system monotor thread*/
  err = MICOStartSystemMonitor(context);
  require_noerr_action( err, exit, mico_log("ERROR: Unable to start the system monitor.") );

  err = MICORegisterSystemMonitor(&mico_monitor, APPLICATION_WATCHDOG_TIMEOUT_SECONDS*1000);
  require_noerr( err, exit );
  mico_init_timer(&_watchdog_reload_timer,APPLICATION_WATCHDOG_TIMEOUT_SECONDS*1000 - 100, _watchdog_reload_timer_handler, NULL);
  mico_start_timer(&_watchdog_reload_timer);

  /* Regisist notifications */
  err = MICOAddNotification( mico_notify_WIFI_STATUS_CHANGED, (void *)micoNotify_WifiStatusHandler );
  require_noerr( err, exit ); 

  
  /*************add ethernet********Why add twice?***********/
  //add_ethernet();
  
  if(context->flashContentInRam.micoSystemConfig.configured != allConfigured){
    mico_log("Empty configuration. Starting configuration mode...");

#if (MICO_CONFIG_MODE == CONFIG_MODE_EASYLINK) || (MICO_CONFIG_MODE == CONFIG_MODE_EASYLINK_WITH_SOFTAP)
  err = startEasyLink( context );
  require_noerr( err, exit );
#elif (MICO_CONFIG_MODE == CONFIG_MODE_SOFT_AP)
  err = startEasyLinkSoftAP( context );
  require_noerr( err, exit );
#elif (MICO_CONFIG_MODE == CONFIG_MODE_AIRKISS)
  err = startAirkiss( context );
  require_noerr( err, exit );
#elif (MICO_CONFIG_MODE == CONFIG_MODE_WPS) || MICO_CONFIG_MODE == defined (CONFIG_MODE_WPS_WITH_SOFTAP)
  err = startWPS( context );
  require_noerr( err, exit );
#elif ( MICO_CONFIG_MODE == CONFIG_MODE_WAC)
  WACPlatformParameters_t* WAC_Params = NULL;
  WAC_Params = calloc(1, sizeof(WACPlatformParameters_t));
  require(WAC_Params, exit);

  str2hex((unsigned char *)para.mac, WAC_Params->macAddress, 6);
  WAC_Params->isUnconfigured          = 1;
  WAC_Params->supportsAirPlay         = 0;
  WAC_Params->supportsAirPrint        = 0;
  WAC_Params->supports2_4GHzWiFi      = 1;
  WAC_Params->supports5GHzWiFi        = 0;
  WAC_Params->supportsWakeOnWireless  = 0;

  WAC_Params->firmwareRevision =  FIRMWARE_REVISION;
  WAC_Params->hardwareRevision =  HARDWARE_REVISION;
  WAC_Params->serialNumber =      SERIAL_NUMBER;
  WAC_Params->name =              context->flashContentInRam.micoSystemConfig.name;
  WAC_Params->model =             MODEL;
  WAC_Params->manufacturer =      MANUFACTURER;

  WAC_Params->numEAProtocols =    1;
  WAC_Params->eaBundleSeedID =    BUNDLE_SEED_ID;
  WAC_Params->eaProtocols =       (char **)eaProtocols;

  err = startMFiWAC( context, WAC_Params, 1200);
  free(WAC_Params);
  require_noerr( err, exit );
#else
  #error "Wi-Fi configuration mode is not defined"?
#endif
  }
  else{
    mico_log("Available configuration. Starting Wi-Fi connection...");
    
    err = MICOAddNotification( mico_notify_WiFI_PARA_CHANGED, (void *)micoNotify_WiFIParaChangedHandler );
    require_noerr( err, exit ); 

    err = MICOAddNotification( mico_notify_DHCP_COMPLETED, (void *)micoNotify_DHCPCompleteHandler );
    require_noerr( err, exit );  
   
    if(context->flashContentInRam.micoSystemConfig.rfPowerSaveEnable == true){
      micoWlanEnablePowerSave();
    }

    if(context->flashContentInRam.micoSystemConfig.mcuPowerSaveEnable == true){
      MicoMcuPowerSaveConfig(true);
    }

    /*Local configuration server*/
    if(context->flashContentInRam.micoSystemConfig.configServerEnable == true){
      err =  MICOStartConfigServer(context);
      require_noerr_action( err, exit, mico_log("ERROR: Unable to start the local server thread.") );
    }

    err =  MICOStartNTPClient(context);
    require_noerr_action( err, exit, mico_log("ERROR: Unable to start the NTP client thread.") );

    /*Start mico application*/
    err = MICOStartApplication( context );
    require_noerr( err, exit );

    _ConnectToAP( context );
  }

  mico_log("Free memory %d bytes", MicoGetMemoryInfo()->free_memory) ; 
  
  /*System status changed*/
  while(mico_rtos_get_semaphore(&context->micoStatus.sys_state_change_sem, MICO_WAIT_FOREVER)==kNoErr){
    switch(context->micoStatus.sys_state){
      case eState_Normal:
        break;
      case eState_Software_Reset:
        sendNotifySYSWillPowerOff();
        mico_thread_msleep(500);
        MicoSystemReboot();
        break;
      case eState_Wlan_Powerdown:
        sendNotifySYSWillPowerOff();
        mico_thread_msleep(500);
        micoWlanPowerOff();
        break;
      case eState_Standby:
        mico_log("Enter standby mode");
        sendNotifySYSWillPowerOff();
        mico_thread_msleep(200);
        micoWlanPowerOff();
        MicoSystemStandBy(MICO_WAIT_FOREVER);
        break;
      default:
        break;
    }
  }
    
  require_noerr_action( err, exit, mico_log("Closing main thread with err num: %d.", err) );

exit:
  mico_rtos_delete_thread(NULL);
  return kNoErr;
}
Example #5
0
int application_start(void)
{
  OSStatus err = kNoErr;
  IPStatusTypedef para;
  struct tm currentTime;
  mico_rtc_time_t time;
  char wifi_ver[64] = {0};
  mico_log_trace(); 


  /*Read current configurations*/
  context = ( mico_Context_t *)malloc(sizeof(mico_Context_t) );
  require_action( context, exit, err = kNoMemoryErr );
  memset(context, 0x0, sizeof(mico_Context_t));
  mico_rtos_init_mutex(&context->flashContentInRam_mutex);//ram互斥初始化
  mico_rtos_init_semaphore(&context->micoStatus.sys_state_change_sem, 1);//系统状态信号量 
  mico_rtos_create_thread( NULL, MICO_APPLICATION_PRIORITY, "sys", _sys_state_thread, 800, NULL );

  MICOReadConfiguration( context );//读flash数据

  err = MICOInitNotificationCenter  ( context );

  err = MICOAddNotification( mico_notify_READ_APP_INFO, (void *)micoNotify_ReadAppInfoHandler );
  require_noerr( err, exit );  

  err = MICOAddNotification( mico_notify_WIFI_CONNECT_FAILED, (void *)micoNotify_ConnectFailedHandler );
  require_noerr( err, exit ); 

  err = MICOAddNotification( mico_notify_WIFI_Fatal_ERROR, (void *)micoNotify_WlanFatalErrHandler );
  require_noerr( err, exit ); 

  err = MICOAddNotification( mico_notify_Stack_Overflow_ERROR, (void *)micoNotify_StackOverflowErrHandler );
  require_noerr( err, exit ); 

  /*wlan driver and tcpip init*/
  mico_log( "MiCO starting..." );
  MicoInit();
#ifdef MICO_CLI_ENABLE
  MicoCliInit();
#endif
  MicoSysLed(true);
  mico_log("Free memory %d bytes", MicoGetMemoryInfo()->free_memory); 
  micoWlanGetIPStatus(&para, Station);
  formatMACAddr(context->micoStatus.mac, (char *)para.mac);
  MicoGetRfVer(wifi_ver, sizeof(wifi_ver));
  mico_log("ip = %s,mac=%s",para.ip,para.mac);
  mico_log("%s mxchipWNet library version: %s", APP_INFO, MicoGetVer());
  mico_log("Wi-Fi driver version %s, mac %s", wifi_ver, context->micoStatus.mac);
 
  /*Start system monotor thread*/
  //err = MICOStartSystemMonitor(context);
  require_noerr_action( err, exit, mico_log("ERROR: Unable to start the system monitor.") );

  err = MICORegisterSystemMonitor(&mico_monitor, APPLICATION_WATCHDOG_TIMEOUT_SECONDS*1000);
  require_noerr( err, exit );
  mico_init_timer(&_watchdog_reload_timer,APPLICATION_WATCHDOG_TIMEOUT_SECONDS*1000/2, _watchdog_reload_timer_handler, NULL);
  mico_start_timer(&_watchdog_reload_timer);

  /* Enter test mode, call a build-in test function amd output on MFG UART */
  if(MicoShouldEnterMFGMode()==true){
    mico_log( "Enter MFG mode by MFG button" );
    mico_mfg_test(context);
  }
  
  /*Read current time from RTC.*/
  if( MicoRtcGetTime(&time) == kNoErr ){
    currentTime.tm_sec = time.sec;
    currentTime.tm_min = time.min;
    currentTime.tm_hour = time.hr;
    currentTime.tm_mday = time.date;
    currentTime.tm_wday = time.weekday;
    currentTime.tm_mon = time.month - 1;
    currentTime.tm_year = time.year + 100;
    mico_log("Current Time: %s",asctime(&currentTime));
  }else
    mico_log("RTC function unsupported");
  
  /* Regisist notifications */
  err = MICOAddNotification( mico_notify_WIFI_STATUS_CHANGED, (void *)micoNotify_WifiStatusHandler );
  require_noerr( err, exit ); 

  if( context->flashContentInRam.micoSystemConfig.configured == wLanUnConfigured ||
      context->flashContentInRam.micoSystemConfig.configured == unConfigured){
    mico_log("Empty configuration. Starting configuration mode...");
//HERE TO config network
#if (MICO_CONFIG_MODE == CONFIG_MODE_EASYLINK) || (MICO_CONFIG_MODE == CONFIG_MODE_EASYLINK_WITH_SOFTAP)
    err = startEasyLink( context );
    require_noerr( err, exit );
#elif (MICO_CONFIG_MODE == CONFIG_MODE_SOFT_AP)
    err = startEasyLinkSoftAP( context );
    require_noerr( err, exit );
#elif (MICO_CONFIG_MODE == CONFIG_MODE_AIRKISS)
    err = startAirkiss( context );
    require_noerr( err, exit );
#elif (MICO_CONFIG_MODE == CONFIG_MODE_WPS) || MICO_CONFIG_MODE == defined (CONFIG_MODE_WPS_WITH_SOFTAP)
    err = startWPS( context );
    require_noerr( err, exit );
#elif ( MICO_CONFIG_MODE == CONFIG_MODE_WAC)
    WACPlatformParameters_t* WAC_Params = NULL;
    WAC_Params = calloc(1, sizeof(WACPlatformParameters_t));
    require(WAC_Params, exit);

    str2hex((unsigned char *)para.mac, WAC_Params->macAddress, 6);
    WAC_Params->isUnconfigured          = 1;
    WAC_Params->supportsAirPlay         = 0;
    WAC_Params->supportsAirPrint        = 0;
    WAC_Params->supports2_4GHzWiFi      = 1;
    WAC_Params->supports5GHzWiFi        = 0;
    WAC_Params->supportsWakeOnWireless  = 0;

    WAC_Params->firmwareRevision =  FIRMWARE_REVISION;
    WAC_Params->hardwareRevision =  HARDWARE_REVISION;
    WAC_Params->serialNumber =      SERIAL_NUMBER;
    WAC_Params->name =              context->flashContentInRam.micoSystemConfig.name;
    WAC_Params->model =             MODEL;
    WAC_Params->manufacturer =      MANUFACTURER;

    WAC_Params->numEAProtocols =    1;
    WAC_Params->eaBundleSeedID =    BUNDLE_SEED_ID;
    WAC_Params->eaProtocols =       (char **)eaProtocols;

    err = startMFiWAC( context, WAC_Params, MICO_I2C_CP, 1200 );
    free(WAC_Params);
    require_noerr( err, exit );
#else
    #error "Wi-Fi configuration mode is not defined"
#endif
  }
  else{
    mico_log("Available configuration. Starting Wi-Fi connection...");
    _ConnectToAP( context );
  }


#ifdef MFG_MODE_AUTO
  if( context->flashContentInRam.micoSystemConfig.configured == mfgConfigured ){
    mico_log( "Enter MFG mode automatically" );
    mico_mfg_test(context);
    mico_thread_sleep(MICO_NEVER_TIMEOUT);
  }
#endif
  
  err = MICOAddNotification( mico_notify_WiFI_PARA_CHANGED, (void *)micoNotify_WiFIParaChangedHandler );
  require_noerr( err, exit ); 

  err = MICOAddNotification( mico_notify_DHCP_COMPLETED, (void *)micoNotify_DHCPCompleteHandler );
  require_noerr( err, exit );  
 
  if(context->flashContentInRam.micoSystemConfig.rfPowerSaveEnable == true){
    micoWlanEnablePowerSave();
  }

  if(context->flashContentInRam.micoSystemConfig.mcuPowerSaveEnable == true){
    MicoMcuPowerSaveConfig(true);
  }
 
  /*Local configuration server*/
  if(context->flashContentInRam.micoSystemConfig.configServerEnable == true){
    err =  MICOStartConfigServer(context);
    require_noerr_action( err, exit, mico_log("ERROR: Unable to start the local server thread.") );
  }

  err =  MICOStartNTPClient(context);
  require_noerr_action( err, exit, mico_log("ERROR: Unable to start the NTP client thread.") );

  /*Start mico application*/
  err = MICOStartApplication( context );
  require_noerr( err, exit );
  
  mico_log("Free memory %d bytes", MicoGetMemoryInfo()->free_memory) ; 
  
  require_noerr_action( err, exit, mico_log("Closing main thread with err num: %d.", err) );

exit:
  mico_rtos_delete_thread(NULL);
  return kNoErr;
}
Example #6
0
void led_thread(void *inContext)
{
    led_log_trace();
    nearair_Context_t *airContext = inContext;
    char mode_old;
    char airclass_old;
    bsp_InitLed();
    mode_old = airContext->deviceStatus.mode;
    airclass_old = airContext->airStatus.airclass;
    
    mico_init_timer(&_led_init_timer, 500,led_init_handle, inContext);
    mico_init_timer(&_led_sleep_timer,20, led_sleep_handle,inContext);
    while(1)
    {
        if(mode_old != airContext->deviceStatus.mode)
        {
            if(mode_old == MODE_INIT)
               mico_stop_timer(&_led_init_timer);
            if(mode_old == MODE_SLEEP)
               mico_stop_timer(&_led_sleep_timer);
            
            mode_old = airContext->deviceStatus.mode;
            
            switch(mode_old)
            {
              case MODE_CLOSE:
                set_led_color(0,0,0);
                break;
              case MODE_INIT:
                mico_start_timer(&_led_init_timer);          
                break;
              case MODE_SMART:
                switch( airContext->airStatus.airclass )
                {
                  case AQ_GOOD:
                    set_led_color(0,0,99);
                    break;
                  case AQ_SOSO:
                    set_led_color(99,33,0);
                    break;
                  case AQ_BAD:
                    set_led_color(99,0,0);
                    break;
                  default:
                    break;            
                }          
                break;
              case MODE_SLEEP:
                mico_start_timer(&_led_sleep_timer);    
                break;
              case MODE_FLY:
                set_led_color(0,99,0);
                break;
              default:
                break;
            }
        }
        if(mode_old == MODE_SMART)
        {
            if(airclass_old != airContext->airStatus.airclass)
            {
                airclass_old = airContext->airStatus.airclass;
                switch( airclass_old )
                {
                  case AQ_GOOD:
                    set_led_color(0,0,99);
                    break;
                  case AQ_SOSO:
                    set_led_color(99,33,0);
                    break;
                  case AQ_BAD:
                    set_led_color(99,0,0);
                    break;
                  default:
                    break;            
                }
            }
        }
        if(airContext->setStatus.led_enable)
        {
          set_led_color(airContext->setStatus.led_r,airContext->setStatus.led_g,\
            airContext->setStatus.led_b);
        }
    }
}