//tmr.start(id,interval,function)
//id:1~16
static int ltmr_start( lua_State* L )
{
unsigned id = luaL_checkinteger( L, 1 )-1;
MOD_CHECK_ID( tmr, id+1 );
unsigned interval = luaL_checkinteger( L, 2 );
if ( interval <= 0 )
return luaL_error( L, "wrong arg range" );
if (lua_type(L, 3) == LUA_TFUNCTION || lua_type(L, 3) == LUA_TLIGHTFUNCTION)
{
lua_pushvalue(L, 3); // copy argument (func) to the top of stack
if(tmr_cb_ref[id] != LUA_NOREF)
{
luaL_unref(L, LUA_REGISTRYINDEX, tmr_cb_ref[id]);
}
gL = L;
tmr_cb_ref[id] = luaL_ref(L, LUA_REGISTRYINDEX);
mico_stop_timer(&_timer[id]);
mico_deinit_timer( &_timer[id] );
mico_init_timer(&_timer[id], interval, _tmr_handler, (void*)id);
mico_start_timer(&_timer[id]);
}
else
return luaL_error( L, "callback function needed" );
return 0;
}
void ConfigSoftApWillStart(mico_Context_t * const inContext )
{
OSStatus err;
mico_uart_config_t uart_config;
mico_stop_timer(&_Led_EL_timer);
mico_deinit_timer( &_Led_EL_timer );
mico_init_timer(&_Led_EL_timer, SYS_LED_TRIGGER_INTERVAL_AFTER_EASYLINK, _led_EL_Timeout_handler, NULL);
mico_start_timer(&_Led_EL_timer);
sppProtocolInit(inContext);
/*UART receive thread*/
uart_config.baud_rate = inContext->flashContentInRam.appConfig.USART_BaudRate;
uart_config.data_width = DATA_WIDTH_8BIT;
uart_config.parity = NO_PARITY;
uart_config.stop_bits = STOP_BITS_1;
uart_config.flow_control = FLOW_CONTROL_DISABLED;
ring_buffer_init ( (ring_buffer_t *)&rx_buffer, (uint8_t *)rx_data, UART_BUFFER_LENGTH );
MicoUartInitialize( UART_FOR_APP, &uart_config, (ring_buffer_t *)&rx_buffer );
err = mico_rtos_create_thread(NULL, MICO_APPLICATION_PRIORITY, "UART Recv", uartRecv_thread, STACK_SIZE_UART_RECV_THREAD, (void*)inContext );
require_noerr_action( err, exit, config_delegate_log("ERROR: Unable to start the uart recv thread.") );
if(inContext->flashContentInRam.appConfig.localServerEnable == true){
err = mico_rtos_create_thread(NULL, MICO_APPLICATION_PRIORITY, "Local Server", localTcpServer_thread, STACK_SIZE_LOCAL_TCP_SERVER_THREAD, (void*)inContext );
require_noerr_action( err, exit, config_delegate_log("ERROR: Unable to start the local server thread.") );
}
exit:
return;
}
//tmr.stop(id)
//id:1~16
static int ltmr_stop( lua_State* L )
{
unsigned id = luaL_checkinteger( L, 1 ) - 1;
MOD_CHECK_ID( tmr, id+1 );
mico_stop_timer(&_timer[id]);
return 0;
}
void ConfigSoftApWillStart(mico_Context_t * const inContext )
{
mico_stop_timer(&_Led_EL_timer);
mico_deinit_timer( &_Led_EL_timer );
mico_init_timer(&_Led_EL_timer, SYS_LED_TRIGGER_INTERVAL_AFTER_EASYLINK, _led_EL_Timeout_handler, NULL);
mico_start_timer(&_Led_EL_timer);
}
void ConfigEasyLinkIsSuccess( mico_Context_t * const inContext )
{
(void)(inContext);
config_delegate_log_trace();
#ifdef USE_MiCOKit_EXT
char oled_show_line[OLED_DISPLAY_MAX_CHAR_PER_ROW+1] = {'\0'};
#endif
mico_stop_timer(&_Led_EL_timer);
mico_deinit_timer( &_Led_EL_timer );
mico_init_timer(&_Led_EL_timer, SYS_LED_TRIGGER_INTERVAL_AFTER_EASYLINK, _led_EL_Timeout_handler, NULL);
mico_start_timer(&_Led_EL_timer);
#ifdef USE_MiCOKit_EXT
memset(oled_show_line, '\0', OLED_DISPLAY_MAX_CHAR_PER_ROW+1);
snprintf(oled_show_line, OLED_DISPLAY_MAX_CHAR_PER_ROW+1, "%s", (uint8_t*)"EasyLink got ");
OLED_ShowString(OLED_DISPLAY_COLUMN_START, OLED_DISPLAY_ROW_2, (uint8_t*)oled_show_line);
memset(oled_show_line, '\0', OLED_DISPLAY_MAX_CHAR_PER_ROW+1);
snprintf(oled_show_line, OLED_DISPLAY_MAX_CHAR_PER_ROW+1, "%16s", inContext->flashContentInRam.micoSystemConfig.ssid);
OLED_ShowString(OLED_DISPLAY_COLUMN_START, OLED_DISPLAY_ROW_3, (uint8_t*)oled_show_line);
memset(oled_show_line, '\0', OLED_DISPLAY_MAX_CHAR_PER_ROW+1);
snprintf(oled_show_line, OLED_DISPLAY_MAX_CHAR_PER_ROW+1, "%16s", inContext->flashContentInRam.micoSystemConfig.user_key);
OLED_ShowString(OLED_DISPLAY_COLUMN_START, OLED_DISPLAY_ROW_4, (uint8_t*)oled_show_line);
#endif
return;
}
WEAK void mico_system_delegate_config_will_start( void )
{
/*Led trigger*/
mico_stop_timer(&_Led_EL_timer);
mico_deinit_timer( &_Led_EL_timer );
mico_init_timer(&_Led_EL_timer, SYS_LED_TRIGGER_INTERVAL, _led_EL_Timeout_handler, NULL);
mico_start_timer(&_Led_EL_timer);
return;
}
static void _button_EL_Timeout_handler( void* arg )
{
(void)(arg);
_default_start_time = 0;
MicoGpioEnableIRQ( (mico_gpio_t)EasyLink_BUTTON, IRQ_TRIGGER_FALLING_EDGE, _button_EL_irq_handler, NULL );
if( MicoGpioInputGet( (mico_gpio_t)EasyLink_BUTTON ) == 0){
PlatformEasyLinkButtonLongPressedCallback();
}
mico_stop_timer(&_button_EL_timer);
}
void ConfigWillStop( mico_Context_t * const inContext )
{
(void)(inContext);
config_delegate_log_trace();
mico_stop_timer(&_Led_EL_timer);
mico_deinit_timer( &_Led_EL_timer );
MicoGpioOutputLow((mico_gpio_t)MICO_SYS_LED);
return;
}
WEAK void mico_system_delegate_config_recv_ssid ( char *ssid, char *key )
{
UNUSED_PARAMETER(ssid);
UNUSED_PARAMETER(key);
mico_stop_timer(&_Led_EL_timer);
mico_deinit_timer( &_Led_EL_timer );
mico_init_timer(&_Led_EL_timer, SYS_LED_TRIGGER_INTERVAL_AFTER_EASYLINK, _led_EL_Timeout_handler, NULL);
mico_start_timer(&_Led_EL_timer);
return;
}
static void led_sleep_handle(void *inContext)
{
nearair_Context_t *airContent = inContext;
static uint8_t count = 0;
static uint8_t R;
uint8_t pluse_count = 0;
if(MODE_SLEEP != airContent->deviceStatus.mode)
{
mico_stop_timer(&_led_sleep_timer);
mico_deinit_timer(&_led_sleep_timer);
}
switch(airContent->sensorStatus.light)
{
case NIGHT:
R = 130;
break;
case DAY:
R = 100;
break;
default:
break;
}
count += 1;
if(count > 200)
{
count = 0;
return;
}
if(count < 100)
{
pluse_count = R - (int)sqrt(R*R - count*count);
}
if(count > 100)
{
pluse_count = R - (int)sqrt(R*R - (200 - count)*(200 - count));
}
if(pluse_count < 3)//避免灯灭导致闪烁感
return;
set_led_color(0,0,pluse_count);
/* switch(airContext->airStatus.airclass)
{
case AQ_GOOD:
set_led_color(0,0,pluse_count);
break;
case AQ_SOSO:
set_led_color(pluse_count,2+(int)(0.3*pluse_count),0);
break;
case AQ_BAD:
set_led_color(pluse_count,0,0);
break;
default:
break;
}*/
}
void ConfigAirkissIsSuccess( mico_Context_t * const inContext )
{
(void)(inContext);
config_delegate_log_trace();
mico_stop_timer(&_Led_EL_timer);
mico_deinit_timer( &_Led_EL_timer );
mico_init_timer(&_Led_EL_timer, SYS_LED_TRIGGER_INTERVAL_AFTER_EASYLINK, _led_EL_Timeout_handler, NULL);
mico_start_timer(&_Led_EL_timer);
return;
}
//tmr.stop(id)
//id:0~15
static int ltmr_stop( lua_State* L )
{
unsigned id = luaL_checkinteger( L, 1 );
MOD_CHECK_ID( tmr, id );
if(tmr_is_started[id]==true)
mico_stop_timer(&_timer[id]);
tmr_is_started[id]=false;
if(tmr_cb_ref[id] != LUA_NOREF)
{
luaL_unref(L, LUA_REGISTRYINDEX, tmr_cb_ref[id]);
}
tmr_cb_ref[id] = LUA_NOREF;
return 0;
}
static int ltmr_stopall( lua_State* L )
{
for(int i=0;i<NUM_TMR;i++)
{
if(tmr_is_started[i]==true)
mico_stop_timer(&_timer[i]);
tmr_is_started[i]=false;
if(tmr_cb_ref[i] != LUA_NOREF)
{
luaL_unref(L, LUA_REGISTRYINDEX, tmr_cb_ref[i]);
}
tmr_cb_ref[i] = LUA_NOREF;
}
return 0;
}
void _cleanEasyLinkResource( mico_Context_t * const inContext )
{
if(inContext->micoStatus.easylinkClient_fd!=-1)
close(inContext->micoStatus.easylinkClient_fd);
/*module should power down under default setting*/
MICORemoveNotification( mico_notify_WIFI_STATUS_CHANGED, (void *)EasyLinkNotify_WifiStatusHandler );
MICORemoveNotification( mico_notify_WiFI_PARA_CHANGED, (void *)EasyLinkNotify_WiFIParaChangedHandler );
MICORemoveNotification( mico_notify_EASYLINK_COMPLETED, (void *)EasyLinkNotify_EasyLinkCompleteHandler );
MICORemoveNotification( mico_notify_EASYLINK_GET_EXTRA_DATA, (void *)EasyLinkNotify_EasyLinkGetExtraDataHandler );
mico_rtos_deinit_semaphore(&inContext->micoStatus.easylink_sem);
inContext->micoStatus.easylink_sem = NULL;
if(httpHeader) free(httpHeader);
mico_stop_timer(&_Led_EL_timer);
}
static void _button_EL_irq_handler( void* arg )
{
(void)(arg);
if (GPIO_ReadInputDataBit(Button_EL_PORT, Button_EL_PIN) == 0) {
_default_start_time = mico_get_time()+1;
mico_start_timer(&_button_EL_timer);
} else {
if ( (_default_start_time != 0) && (mico_get_time() - _default_start_time) > 50){
/* EasyLink button clicked once */
PlatformEasyLinkButtonClickedCallback();
}
mico_stop_timer(&_button_EL_timer);
_default_start_time = 0;
}
}
static void _user_key2_irq_handler( void* arg )
{
(void)(arg);
int interval = -1;
if ( MicoGpioInputGet( (mico_gpio_t)USER_KEY2 ) == 0 ) {
_default_key2_start_time = mico_get_time()+1;
mico_start_timer(&_user_key2_timer);
} else {
interval = mico_get_time() + 1 - _default_key2_start_time;
if ( (_default_key2_start_time != 0) && interval > 50 && interval < user_key2_long_press_timeout){
/* button clicked once */
user_key2_clicked_callback();
}
mico_stop_timer(&_user_key2_timer);
_default_key2_start_time = 0;
}
}
static void _button_EL_irq_handler( void* arg )
{
(void)(arg);
int interval = -1;
if ( MicoGpioInputGet( (mico_gpio_t)EasyLink_BUTTON ) == 0 ) {
_default_start_time = mico_get_time()+1;
mico_start_timer(&_button_EL_timer);
} else {
interval = mico_get_time() + 1 - _default_start_time;
if ( (_default_start_time != 0) && interval > 50 && interval < RestoreDefault_TimeOut){
/* EasyLink button clicked once */
PlatformEasyLinkButtonClickedCallback();
}
mico_stop_timer(&_button_EL_timer);
_default_start_time = 0;
}
}
static void _button_EL_irq_handler( void* arg )
{
(void)(arg);
int interval = -1;
if (GPIO_ReadInputDataBit(Button_EL_PORT, Button_EL_PIN) == 0) {
_default_start_time = mico_get_time()+1;
mico_start_timer(&_button_EL_timer);
} else {
interval = mico_get_time() + 1 - _default_start_time;
if ( (_default_start_time != 0) && interval > 50 && interval < RestoreDefault_TimeOut){
/* EasyLink button clicked once */
PlatformEasyLinkButtonClickedCallback();
}
mico_stop_timer(&_button_EL_timer);
_default_start_time = 0;
}
}
void ConfigWillStop( mico_Context_t * const inContext )
{
(void)(inContext);
config_delegate_log_trace();
#ifdef USE_MiCOKit_EXT
char oled_show_line[OLED_DISPLAY_MAX_CHAR_PER_ROW+1] = {'\0'};
#endif
mico_stop_timer(&_Led_EL_timer);
mico_deinit_timer( &_Led_EL_timer );
MicoGpioOutputLow((mico_gpio_t)MICO_SYS_LED);
#ifdef USE_MiCOKit_EXT
memset(oled_show_line, '\0', OLED_DISPLAY_MAX_CHAR_PER_ROW+1);
snprintf(oled_show_line, OLED_DISPLAY_MAX_CHAR_PER_ROW+1, "%s", (uint8_t*)"Config ");
OLED_ShowString(OLED_DISPLAY_COLUMN_START, OLED_DISPLAY_ROW_2, (uint8_t*)oled_show_line);
OLED_ShowString(OLED_DISPLAY_COLUMN_START, OLED_DISPLAY_ROW_3, " Stop. ");
OLED_ShowString(OLED_DISPLAY_COLUMN_START, OLED_DISPLAY_ROW_4, " ");
#endif
return;
}
static void _user_key1_irq_handler( void* arg )
{
(void)(arg);
int interval = -1;
if ( MicoGpioInputGet( (mico_gpio_t)USER_KEY1 ) == 0 ) {
MicoGpioEnableIRQ( (mico_gpio_t)USER_KEY1, IRQ_TRIGGER_RISING_EDGE, _user_key1_irq_handler, NULL );
_default_key1_start_time = mico_get_time()+1;
mico_start_timer(&_user_key1_timer);
} else {
interval = mico_get_time() + 1 - _default_key1_start_time;
if ( (_default_key1_start_time != 0) && interval > 50 && interval < user_key1_long_press_timeout){
/* button clicked once */
user_key1_clicked_callback();
}
MicoGpioEnableIRQ( (mico_gpio_t)USER_KEY1, IRQ_TRIGGER_FALLING_EDGE, _user_key1_irq_handler, NULL );
mico_stop_timer(&_user_key1_timer);
_default_key1_start_time = 0;
}
}
void EasyLinkNotify_EasyLinkCompleteHandler(network_InitTypeDef_st *nwkpara, mico_Context_t * const inContext)
{
OSStatus err;
easylink_log_trace();
easylink_log("EasyLink return @ %d", mico_get_time());
require_action(inContext, exit, err = kParamErr);
require_action(nwkpara, exit, err = kTimeoutErr);
mico_rtos_lock_mutex(&inContext->flashContentInRam_mutex);
memcpy(inContext->flashContentInRam.micoSystemConfig.ssid, nwkpara->wifi_ssid, maxSsidLen);
memcpy(inContext->flashContentInRam.micoSystemConfig.user_key, nwkpara->wifi_key, maxKeyLen);
inContext->flashContentInRam.micoSystemConfig.user_keyLength = strlen(nwkpara->wifi_key);
mico_rtos_unlock_mutex(&inContext->flashContentInRam_mutex);
easylink_log("Get SSID: %s, Key: %s", inContext->flashContentInRam.micoSystemConfig.ssid, inContext->flashContentInRam.micoSystemConfig.user_key);
return;
/*EasyLink is not start*/
exit:
easylink_log("ERROR, err: %d", err);
#if defined (CONFIG_MODE_EASYLINK_WITH_SOFTAP)
EasylinkFailed = true;
mico_rtos_set_semaphore(&inContext->micoStatus.easylink_sem);
#else
ConfigWillStop(inContext);
/*so roll back to previous settings (if it has) and reboot*/
mico_rtos_lock_mutex(&inContext->flashContentInRam_mutex);
if(inContext->flashContentInRam.micoSystemConfig.configured != unConfigured){
inContext->flashContentInRam.micoSystemConfig.configured = allConfigured;
MICOUpdateConfiguration(inContext);
PlatformSoftReboot();
}
mico_rtos_unlock_mutex(&inContext->flashContentInRam_mutex);
/*module should powd down in default setting*/
wifi_power_down();
mico_stop_timer(&_Led_EL_timer);
Platform_LED_SYS_Set_Status(OFF);
#endif
return;
}
static void button_irq_handler( void* arg )
{
button_context_t *_context = arg;
int interval = -1;
if ( MicoGpioInputGet( _context->gpio ) == 0 ) {
MicoGpioEnableIRQ( _context->gpio, IRQ_TRIGGER_RISING_EDGE, button_irq_handler, _context );
_context->start_time = mico_get_time()+1;
mico_start_timer(&_context->_user_button_timer);
} else {
interval = mico_get_time() + 1 - _context->start_time ;
if ( (_context->start_time != 0) && interval > 50 && interval < _context->timeout){
/* button clicked once */
if( _context->pressed_func != NULL )
(_context->pressed_func)();
}
MicoGpioEnableIRQ( _context->gpio, IRQ_TRIGGER_FALLING_EDGE, button_irq_handler, _context );
mico_stop_timer(&_context->_user_button_timer);
_context->start_time = 0;
}
}
void OTASuccess( mico_Context_t * const inContext )
{
//config_delegate_log_trace();
(void)(inContext);
#ifdef USE_MiCOKit_EXT
char oled_show_line[OLED_DISPLAY_MAX_CHAR_PER_ROW+1] = {'\0'};
#endif
// led stop
mico_stop_timer(&_Led_EL_timer);
mico_deinit_timer( &_Led_EL_timer );
MicoSysLed(true);
#ifdef USE_MiCOKit_EXT
memset(oled_show_line, '\0', OLED_DISPLAY_MAX_CHAR_PER_ROW+1);
snprintf(oled_show_line, OLED_DISPLAY_MAX_CHAR_PER_ROW+1, "%s", (uint8_t*)"OTA... ");
OLED_ShowString(OLED_DISPLAY_COLUMN_START, OLED_DISPLAY_ROW_2, (uint8_t*)oled_show_line);
OLED_ShowString(OLED_DISPLAY_COLUMN_START, OLED_DISPLAY_ROW_3, (uint8_t*)" Success! ");
OLED_ShowString(OLED_DISPLAY_COLUMN_START, OLED_DISPLAY_ROW_4, (uint8_t*)" reboot... ");
#endif
return;
}
void ConfigSoftApWillStart(mico_Context_t * const inContext )
{
#ifdef USE_MiCOKit_EXT
char oled_show_line[OLED_DISPLAY_MAX_CHAR_PER_ROW+1] = {'\0'};
#endif
mico_stop_timer(&_Led_EL_timer);
mico_deinit_timer( &_Led_EL_timer );
mico_init_timer(&_Led_EL_timer, SYS_LED_TRIGGER_INTERVAL_AFTER_EASYLINK, _led_EL_Timeout_handler, NULL);
mico_start_timer(&_Led_EL_timer);
#ifdef USE_MiCOKit_EXT
snprintf(oled_show_line, OLED_DISPLAY_MAX_CHAR_PER_ROW+1, "%s", "SoftAP... ");
OLED_ShowString(OLED_DISPLAY_COLUMN_START, OLED_DISPLAY_ROW_2, (uint8_t*)oled_show_line);
memset(oled_show_line, '\0', OLED_DISPLAY_MAX_CHAR_PER_ROW+1);
snprintf(oled_show_line, OLED_DISPLAY_MAX_CHAR_PER_ROW+1, " EasyLink_%c%c%c%c%c%c",
inContext->micoStatus.mac[9], inContext->micoStatus.mac[10],
inContext->micoStatus.mac[12], inContext->micoStatus.mac[13],
inContext->micoStatus.mac[15], inContext->micoStatus.mac[16] );
OLED_ShowString(OLED_DISPLAY_COLUMN_START, OLED_DISPLAY_ROW_3, (uint8_t*)oled_show_line);
OLED_ShowString(OLED_DISPLAY_COLUMN_START, OLED_DISPLAY_ROW_4, " ");
#endif
return;
}
static void _button_EL_irq_handler( void* arg )
{
(void)(arg);
int interval = -1;
mico_start_timer(&_button_EL_timer);
if ( MicoGpioInputGet( (mico_gpio_t)EasyLink_BUTTON ) == 0 ) {
_default_start_time = mico_get_time()+1;
mico_start_timer(&_button_EL_timer);
MicoGpioEnableIRQ( (mico_gpio_t)EasyLink_BUTTON, IRQ_TRIGGER_RISING_EDGE, _button_EL_irq_handler, NULL );
} else {
interval = mico_get_time() + 1 - _default_start_time;
if ( (_default_start_time != 0) && interval > 50 && interval < RestoreDefault_TimeOut){
/* EasyLink button clicked once */
PlatformEasyLinkButtonClickedCallback();
//platform_log("PlatformEasyLinkButtonClickedCallback!");
MicoGpioOutputLow( (mico_gpio_t)MICO_RF_LED );
MicoGpioEnableIRQ( (mico_gpio_t)EasyLink_BUTTON, IRQ_TRIGGER_FALLING_EDGE, _button_EL_irq_handler, NULL );
}
mico_stop_timer(&_button_EL_timer);
_default_start_time = 0;
}
}
void mico_system_delegate_config_recv_ssid ( char *ssid, char *key )
{
config_delegate_log_trace();
#ifdef USE_MiCOKit_EXT
char oled_show_line[OLED_DISPLAY_MAX_CHAR_PER_ROW+1] = {'\0'};
#endif
mico_stop_timer(&_Led_EL_timer);
mico_deinit_timer( &_Led_EL_timer );
mico_init_timer(&_Led_EL_timer, SYS_LED_TRIGGER_INTERVAL_AFTER_EASYLINK, _led_EL_Timeout_handler, NULL);
mico_start_timer(&_Led_EL_timer);
#ifdef USE_MiCOKit_EXT
memset(oled_show_line, '\0', OLED_DISPLAY_MAX_CHAR_PER_ROW+1);
snprintf(oled_show_line, OLED_DISPLAY_MAX_CHAR_PER_ROW+1, "%s", (uint8_t*)"Got ssid/key ");
OLED_ShowString(OLED_DISPLAY_COLUMN_START, OLED_DISPLAY_ROW_2, (uint8_t*)oled_show_line);
memset(oled_show_line, '\0', OLED_DISPLAY_MAX_CHAR_PER_ROW+1);
snprintf(oled_show_line, OLED_DISPLAY_MAX_CHAR_PER_ROW+1, "%16s", ssid);
OLED_ShowString(OLED_DISPLAY_COLUMN_START, OLED_DISPLAY_ROW_3, (uint8_t*)oled_show_line);
memset(oled_show_line, '\0', OLED_DISPLAY_MAX_CHAR_PER_ROW+1);
snprintf(oled_show_line, OLED_DISPLAY_MAX_CHAR_PER_ROW+1, "%16s", key);
OLED_ShowString(OLED_DISPLAY_COLUMN_START, OLED_DISPLAY_ROW_4, (uint8_t*)oled_show_line);
#endif
}
//停止喝水定时
static void TIMER_stop(void)
{
mico_stop_timer(&cupTimeObj.cup_timer);
}
void destroy_timer( void )
{
mico_stop_timer( &timer_handle );
mico_deinit_timer( &timer_handle );
}
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);
}
}
}
