Exemplo n.º 1
0
/*
****************************************************************************************
* @brief             ble_adv
* @param[in]         pcCommandString            ÃüÁîºÍ²ÎÊý´æ·ÅµØÖ·
* @param[in]         pcWriteBuffer              дÈë´ËÊý×éµÄÃüÁ±»·¢Ë͵½´®¿Ú
* @param[in]         commpare_length            ÃüÁîËùÕ¼³¤¶È
* @return            None
* @description       ¿ªÆô»òÕ߹رչ㲥£¬ÃüÁî¸ñʽ£ºAT+ADV=0  ¿ªÆô¹ã²¥    AT+ADV=1   ¹Ø±Õ¹ã²¥
*****************************************************************************************/
int ble_adv( const uint8_t * const pcCommandString,uint8_t* pcWriteBuffer,uint32_t commpare_length)
{
	const int8_t *pcom;
	int32_t arg1;
	uint32_t pxParameterStringLength;

	pcom = at_get_parameter((const int8_t*)pcCommandString + commpare_length + 1, 0, &pxParameterStringLength);
	arg1 = at_HEXstringToNum((const uint8_t *)pcom, pxParameterStringLength); 
	if(arg1 == 0)
	{
		usr_led1_set(LED_ON_DUR_IDLE,LED_OFF_DUR_IDLE);
		app_gap_adv_stop_req();
	}
	else if(arg1 == 1)
	{
				usr_led1_set(LED_ON_DUR_ADV_FAST,LED_ON_DUR_ADV_FAST);
				app_gap_adv_start_req(GAP_GEN_DISCOVERABLE|GAP_UND_CONNECTABLE,
						app_env.adv_data, app_set_adv_data(GAP_GEN_DISCOVERABLE),
						app_env.scanrsp_data, app_set_scan_rsp_data(app_get_local_service_flag()),
						GAP_ADV_FAST_INTV1, GAP_ADV_FAST_INTV2);
				ke_timer_set(APP_ADV_INTV_UPDATE_TIMER,TASK_APP,30);
	}
	else
	{
		return sprintf((char*)pcWriteBuffer,"ERR\r\n");
	}
	return sprintf((char*)pcWriteBuffer,"OK\r\n");
}
Exemplo n.º 2
0
/**
 ****************************************************************************************
 * @brief Handles button press after cancel the jitter.
 *
 * @param[in] msgid     Id of the message received
 * @param[in] param     None
 * @param[in] dest_id   TASK_APP
 * @param[in] src_id    TASK_APP
 *
 * @return If the message was consumed or not.
 ****************************************************************************************
 */
int app_button_timer_handler(ke_msg_id_t const msgid, void const *param,
                               ke_task_id_t const dest_id, ke_task_id_t const src_id)
{
    switch(msgid)
    {
        case APP_SYS_BUTTON_1_TIMER:
            // make sure the button is pressed
            if(gpio_read_pin(BUTTON1_PIN) == GPIO_LOW)
            {
                if(APP_IDLE == ke_state_get(TASK_APP))
                {
                    struct app_proxr_env_tag *app_proxr_env = &app_env.proxr_ev;
                    if(!app_proxr_env->enabled)
                    {
                        // start adv
                        app_gap_adv_start_req(GAP_GEN_DISCOVERABLE|GAP_UND_CONNECTABLE,
                                app_env.adv_data, app_set_adv_data(GAP_GEN_DISCOVERABLE),
                                app_env.scanrsp_data, app_set_scan_rsp_data(app_get_local_service_flag()),
                                GAP_ADV_FAST_INTV1, GAP_ADV_FAST_INTV2);

#if (QN_DEEP_SLEEP_EN)
                        // prevent entering into deep sleep mode
                        sleep_set_pm(PM_SLEEP);
#endif
#if	(FB_OLED)
		ke_timer_set(APP_OLED_STATE_DISPlAY_TIMER,TASK_APP,20);
#endif
                    }
                }
                else if(APP_ADV == ke_state_get(TASK_APP))
                {
                    // stop adv
                    app_gap_adv_stop_req();

#if (QN_DEEP_SLEEP_EN)
                    // allow entering into deep sleep mode
                    sleep_set_pm(PM_DEEP_SLEEP);
#endif
#if	(FB_OLED)
		ke_timer_set(APP_OLED_STATE_DISPlAY_TIMER,TASK_APP,20);
#endif
                }
            }
            break;

        case APP_SYS_BUTTON_2_TIMER:
            if(gpio_read_pin(BUTTON2_PIN) == GPIO_LOW)
            {
                buzzer_off();
            }
            break;

        default:
            ASSERT_ERR(0);
            break;
    }

    return (KE_MSG_CONSUMED);
}
Exemplo n.º 3
0
static void adv_wdt_to_handler(void)
{
    ke_state_set(TASK_APP, APP_IDLE);

    // start adv
    app_gap_adv_start_req(GAP_GEN_DISCOVERABLE|GAP_UND_CONNECTABLE,
                          app_env.adv_data, app_set_adv_data(GAP_GEN_DISCOVERABLE),
                          app_env.scanrsp_data, app_set_scan_rsp_data(app_get_local_service_flag()),
                          GAP_ADV_FAST_INTV1, GAP_ADV_FAST_INTV2);
}
Exemplo n.º 4
0
void app_init_func(void)
{	
    
#if (BLE_SPOTA_RECEIVER)    
	app_spotar_init();
#endif
    
    app_dis_init();
    
    app_set_adv_data();
}
Exemplo n.º 5
0
/**
 ****************************************************************************************
 * @brief   Start the device to advertising process.
 ****************************************************************************************
 */
void app_start_adv(void)
{
    if(! app_htpt_env->enabled)
    {
        if(APP_IDLE == ke_state_get(TASK_APP))
        {
            app_gap_adv_start_req(GAP_GEN_DISCOVERABLE|GAP_UND_CONNECTABLE,
                    app_env.adv_data, app_set_adv_data(GAP_GEN_DISCOVERABLE),
                    app_env.scanrsp_data, app_set_scan_rsp_data(app_get_local_service_flag()),
                    GAP_ADV_FAST_INTV1, GAP_ADV_FAST_INTV2);
        }
    }
}
Exemplo n.º 6
0
/**
 ****************************************************************************************
 * @brief Handles advertising mode timer event.
 *
 * @param[in] msgid     APP_ADV_INTV_UPDATE_TIMER
 * @param[in] param     None
 * @param[in] dest_id   TASK_APP
 * @param[in] src_id    TASK_APP
 *
 * @return If the message was consumed or not.
 * @description
 *
 * This handler is used to inform the application that first phase of adversting mode is timeout.
 ****************************************************************************************
 */
int app_gap_adv_intv_update_timer_handler(ke_msg_id_t const msgid, void const *param,
                                          ke_task_id_t const dest_id, ke_task_id_t const src_id)
{
    if(APP_ADV == ke_state_get(TASK_APP))
    {
        usr_led1_set(LED_ON_DUR_IDLE, LED_OFF_DUR_IDLE);

        // Update Advertising Parameters
        app_gap_adv_start_req(GAP_GEN_DISCOVERABLE|GAP_UND_CONNECTABLE, 
                                app_env.adv_data, app_set_adv_data(GAP_GEN_DISCOVERABLE), 
                                app_env.scanrsp_data, app_set_scan_rsp_data(app_get_local_service_flag()),
                                GAP_ADV_SLOW_INTV, GAP_ADV_SLOW_INTV);
        }

    return (KE_MSG_CONSUMED);
}
Exemplo n.º 7
0
void app_init_func(void)
{
    
	app_task_custom_init();	
    
	//app_accel_init();
    
    app_set_adv_data();
    
#if 0    
#if SLEEP_ENABLED
    #if DEEP_SLEEP_ENABLED
        app_set_deep_sleep();
    #else
        app_set_extended_sleep(false);
    #endif
#else
    app_disable_sleep();
#endif // SLEEP_ENABLED    
#endif
}
Exemplo n.º 8
0
/**
 ****************************************************************************************
 * @brief   Application task message handler
 ****************************************************************************************
 */
void app_task_msg_hdl(ke_msg_id_t const msgid, void const *param)
{
    switch(msgid)
    {
        case GAP_SET_MODE_REQ_CMP_EVT:
            if(APP_IDLE == ke_state_get(TASK_APP))
            {
                usr_led1_set(LED_ON_DUR_ADV_FAST, LED_OFF_DUR_ADV_FAST);
                ke_timer_set(APP_ADV_INTV_UPDATE_TIMER, TASK_APP, 30 * 100);
            }
            else if(APP_ADV == ke_state_get(TASK_APP))
            {
                usr_led1_set(LED_ON_DUR_ADV_SLOW, LED_OFF_DUR_ADV_SLOW);
            }
            break;

        case GAP_ADV_REQ_CMP_EVT:
            usr_led1_set(LED_ON_DUR_IDLE, LED_OFF_DUR_IDLE);
            ke_timer_clear(APP_ADV_INTV_UPDATE_TIMER, TASK_APP);
            break;

        case GAP_DISCON_CMP_EVT:
            usr_led1_set(LED_ON_DUR_IDLE, LED_OFF_DUR_IDLE);

            // start adv
            app_gap_adv_start_req(GAP_GEN_DISCOVERABLE|GAP_UND_CONNECTABLE,
                    app_env.adv_data, app_set_adv_data(GAP_GEN_DISCOVERABLE),
                    app_env.scanrsp_data, app_set_scan_rsp_data(app_get_local_service_flag()),
                    GAP_ADV_FAST_INTV1, GAP_ADV_FAST_INTV2);
            break;

        case GAP_LE_CREATE_CONN_REQ_CMP_EVT:
            if(((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.status == CO_ERROR_NO_ERROR)
            {
                if(GAP_PERIPHERAL_SLV == app_get_role())
                {
                    ke_timer_clear(APP_ADV_INTV_UPDATE_TIMER, TASK_APP);
                    usr_led1_set(LED_ON_DUR_CON, LED_OFF_DUR_CON);

                    // Update cnx parameters
                    if (((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.con_interval < GAP_PPCP_CONN_INTV_MIN)
                    {
                        // Update connection parameters here
                        struct gap_conn_param_update conn_par;
                        /// Connection interval minimum
                        conn_par.intv_min = GAP_PPCP_CONN_INTV_MIN;
                        /// Connection interval maximum
                        conn_par.intv_max = GAP_PPCP_CONN_INTV_MAX;
                        /// Latency
                        conn_par.latency = GAP_PPCP_SLAVE_LATENCY;
                        /// Supervision timeout, Time = N * 10 msec
                        conn_par.time_out = GAP_PPCP_STO_MULT;
                        app_gap_param_update_req(((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.conhdl, &conn_par);
                    }
                }
            }
            break;

        case GLPS_DISABLE_IND:
            ke_timer_clear(APP_GLPS_MEAS_SEND_TIMER, TASK_APP);
            break;

        case GLPS_CFG_INDNTF_IND:
            if (app_glps_env->evt_cfg & GLPS_MEAS_NTF_CFG && !(((struct glps_cfg_indntf_ind *)param)->evt_cfg & GLPS_MEAS_NTF_CFG))
            {
                ke_timer_clear(APP_GLPS_MEAS_SEND_TIMER, TASK_APP);
            }

            if (app_glps_env->evt_cfg & GLPS_MEAS_CTX_NTF_CFG && !(((struct glps_cfg_indntf_ind *)param)->evt_cfg & GLPS_MEAS_CTX_NTF_CFG))
            {
                ke_timer_clear(APP_GLPS_MEAS_SEND_TIMER, TASK_APP);
            }
            break;

        case GLPS_RACP_REQ_IND:
        {
            uint8_t res;
            switch (((struct glps_racp_req_ind *)param)->racp_req.op_code)
            {
                case GLP_REQ_REP_STRD_RECS:         // Report stored records (Operator: Value from Operator Table)
                    res = app_glps_racp_procedure_handle(&app_glps_env->racp_req);
                    if (res == GLP_RSP_SUCCESS)
                    {    
                        ke_timer_set(APP_GLPS_MEAS_SEND_TIMER, TASK_APP, APP_GLPS_MEAS_SEND_TO);
                    }
                    else
                    {    
                        app_glps_racp_rsp_req_send(app_glps_env->conhdl, 0, GLP_REQ_REP_STRD_RECS, res);
                    }
                    break;

                case GLP_REQ_DEL_STRD_RECS:         // Delete stored records (Operator: Value from Operator Table)
                    app_glps_racp_rsp_req_send(app_glps_env->conhdl, 0, GLP_REQ_DEL_STRD_RECS, GLP_RSP_SUCCESS);
                    break;

                case GLP_REQ_ABORT_OP:              // Abort operation (Operator: Null 'value of 0x00 from Operator Table')
                    ke_timer_clear(APP_GLPS_MEAS_SEND_TIMER, TASK_APP);
                    app_glps_racp_rsp_req_send(app_glps_env->conhdl, 0, GLP_REQ_ABORT_OP, GLP_RSP_SUCCESS);
                    break;

                case GLP_REQ_REP_NUM_OF_STRD_RECS:  // Report number of stored records (Operator: Value from Operator Table)
                    res = app_glps_racp_procedure_handle(&app_glps_env->racp_req);
                    app_glps_racp_rsp_req_send(app_glps_env->conhdl, APP_GLPS_STROED_RECORDS_NUM, GLP_REQ_REP_NUM_OF_STRD_RECS, res);
                    break;

                default:
                    app_glps_racp_rsp_req_send(app_glps_env->conhdl, 0, ((struct glps_racp_req_ind *)param)->racp_req.op_code, GLP_RSP_OP_CODE_NOT_SUP);
                    break;
            }
            break;
        }

        default:
            break;
    }
}
Exemplo n.º 9
0
/**
 ****************************************************************************************
 * @brief   Application task message handler
 ****************************************************************************************
 */
void app_task_msg_hdl(ke_msg_id_t const msgid, void const *param)
{
    switch(msgid)
    {
        case GAP_SET_MODE_REQ_CMP_EVT:
            if(APP_IDLE == ke_state_get(TASK_APP))
            {
                usr_led1_set(LED_ON_DUR_ADV_FAST, LED_OFF_DUR_ADV_FAST);
				  //delay some time let adv slow
                ke_timer_set(APP_ADV_INTV_UPDATE_TIMER, TASK_APP, 30 * 100);
            }
            else if(APP_ADV == ke_state_get(TASK_APP))
            {
                usr_led1_set(LED_ON_DUR_ADV_SLOW, LED_OFF_DUR_ADV_SLOW);
            }
            break;

        case GAP_ADV_REQ_CMP_EVT:
            usr_led1_set(LED_ON_DUR_IDLE, LED_OFF_DUR_IDLE);
            ke_timer_clear(APP_ADV_INTV_UPDATE_TIMER, TASK_APP);
            break;

        case GAP_DISCON_CMP_EVT:
            usr_led1_set(LED_ON_DUR_IDLE, LED_OFF_DUR_IDLE);

            // start adv
            app_gap_adv_start_req(GAP_GEN_DISCOVERABLE|GAP_UND_CONNECTABLE,
                    app_env.adv_data, app_set_adv_data(GAP_GEN_DISCOVERABLE),
                    app_env.scanrsp_data, app_set_scan_rsp_data(app_get_local_service_flag()),
                    GAP_ADV_FAST_INTV1, GAP_ADV_FAST_INTV2);
            break;

        case GAP_LE_CREATE_CONN_REQ_CMP_EVT:
            if(((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.status == CO_ERROR_NO_ERROR)
            {
                if(GAP_PERIPHERAL_SLV == app_get_role())
                {
                    ke_timer_clear(APP_ADV_INTV_UPDATE_TIMER, TASK_APP);
                    usr_led1_set(LED_ON_DUR_CON, LED_OFF_DUR_CON);

                    // Update cnx parameters
                    //if (((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.con_interval >  IOS_CONN_INTV_MAX)
                    {
                        // Update connection parameters here
                        struct gap_conn_param_update conn_par;
                        /// Connection interval minimum
                        conn_par.intv_min = IOS_CONN_INTV_MIN;
                        /// Connection interval maximum
                        conn_par.intv_max = IOS_CONN_INTV_MAX;
                        /// Latency
                        conn_par.latency = IOS_SLAVE_LATENCY;
                        /// Supervision timeout, Time = N * 10 msec
                        conn_par.time_out = IOS_STO_MULT;
                        app_gap_param_update_req(((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.conhdl, &conn_par);
                    }
                }
            }
            break;

        case QPPS_DISABLE_IND:
            break;

        case QPPS_CFG_INDNTF_IND:
            break;

        default:
            break;
    }
}
Exemplo n.º 10
0
int app_accel_adv_timer_handler(ke_msg_id_t const msgid,
                                   void const *param,
                                   ke_task_id_t const dest_id,
                                   ke_task_id_t const src_id)
{
//GZ
		app_set_adv_data();
		
	
    // Shedule interval is: adv starts with APP_ADV_INT_MIN, then after 500ms goes to 200ms, 
    // then after 3 mins goes to 1sec, then after 3 mins goes to 2 sec
    
    // Check if we need to change Advertising interval
    if( accel_adv_count == 0 )
    {
        // First schedule for advertising interval has been reached. Move to the next schedule
        accel_adv_interval = 0x140; // 200ms  (200ms/0.625)
        // Increment counter in retension memory
        //accel_adv_count += 1; 
//        ke_timer_set(APP_ACCEL_ADV_TIMER, TASK_APP, 18000);
				if(accel_adv_interval1 < 10)
					accel_adv_interval1 = 10;
        ke_timer_set(APP_ACCEL_ADV_TIMER, TASK_APP, accel_adv_interval1*100);
		//stop Accelerometer
		acc_stop();
        rwip_env.sleep_enable = true;                
    }    
    else if( accel_adv_count == 1 )
    {
        accel_adv_interval = 0x640; // 1sec  (1000ms/0.625)
        // Increment counter in retension memory
        //accel_adv_count += 1; 
//        ke_timer_set(APP_ACCEL_ADV_TIMER, TASK_APP, 18000);
        ke_timer_set(APP_ACCEL_ADV_TIMER, TASK_APP, accel_adv_interval2*100);
    }
    else if( accel_adv_count == 2 )
    {
        accel_adv_interval = 0xc80; // 2sec  (2000ms/0.625)
        // Increment counter in retension memory
        //accel_adv_count += 1; 
//        ke_timer_set(APP_ACCEL_ADV_TIMER, TASK_APP, 18000);
        ke_timer_set(APP_ACCEL_ADV_TIMER, TASK_APP, accel_adv_interval3*100);
    }
    
	if( accel_adv_count >= 3 )
    {
        accel_adv_count = 0; 
		accel_adv_interval = APP_ADV_INT_MIN;
        // Max schedule for advertising interval has been reached. Stop timer
        ke_timer_clear(APP_ACCEL_ADV_TIMER, TASK_APP);
		// Stop Advertising
		app_adv_stop();
		// Update APP State
		ke_state_set(TASK_APP, APP_CONNECTABLE);
		// Activate Accelerometer
//GZ		set_accel_freefall();
        if(accel_mode == 0)
			set_accel_freefall();
        else
            set_accel_click();

		//acc_int_restart();
		acc_enable_wakeup_irq();
        rwip_env.sleep_enable = true;
    }
	else
	{
		accel_adv_count += 1;
		app_adv_start();
	}
    
    return (KE_MSG_CONSUMED);
}
Exemplo n.º 11
0
/**
 ****************************************************************************************
 * @brief BLE main function.
 *
 * This function is called right after the booting process has completed.
 ****************************************************************************************
 */
int main(void)
{
    int ble_sleep_st, usr_sleep_st;

    // DC-DC
    dc_dc_enable(QN_DC_DC_ENABLE);

    // QN platform initialization
#if QN_NVDS_WRITE
    plf_init(QN_POWER_MODE, __XTAL, QN_32K_RCO, nvds_tmp_buf, NVDS_TMP_BUF_SIZE);
#else
    plf_init(QN_POWER_MODE, __XTAL, QN_32K_RCO, NULL, 0);
#endif

#if (defined(QN_9020_B1) && (!QN_PMU_VOLTAGE))
    disable_patch_b1();
#endif

    // System initialization, user configuration
    SystemInit();

    // Profiles register
#if (QN_WORK_MODE != WORK_MODE_HCI)
    prf_register();
#endif

    // BLE stack initialization
    // Notes:
    // 1. When the chip works on Network Processor Mode, UART flow control signal is used to implement sleep mode.
    // UART 's flow control feature shall be enabled. Enable this feature in the uart.c file.
    // 2. Controller mode does not support sleep mode.
    // 3. So far client example project does not support sleep mode. It will be implemented later.

    // Check to go normal work mode or test mode.
    // If the input of test control pin is low level, the program will enter into test mode, otherwise the program will
    // enter into work mode which is defined in the user configuration file.
#if (defined(QN_TEST_CTRL_PIN))
    if(gpio_read_pin(QN_TEST_CTRL_PIN) == GPIO_HIGH)
    {
#endif
        // Work mode defined in the usr_config.h
        ble_init((enum WORK_MODE)QN_WORK_MODE, QN_HCI_PORT, QN_HCI_RD, QN_HCI_WR, ble_heap, BLE_HEAP_SIZE, QN_BLE_SLEEP);
#if (defined(QN_TEST_CTRL_PIN))
    }
    else
    {
        // Test mode (controller mode)
        ble_init((enum WORK_MODE)WORK_MODE_HCI, QN_HCI_PORT, QN_HCI_RD, QN_HCI_WR, ble_heap, BLE_HEAP_SIZE, false);
        // In the test mode, the program moniter test control pin. If the input of test control ping changes to low level,
        // it means work mode should be switched to the mode defined in the user configuration file.
        gpio_set_interrupt(QN_TEST_CTRL_PIN, GPIO_INT_HIGH_LEVEL);	
        gpio_enable_interrupt(QN_TEST_CTRL_PIN);
    }
#endif

    set_max_sleep_duration(QN_BLE_MAX_SLEEP_DUR);

    // If QN902x works on wireless SoC mode, initialize APP task
#if (QN_WORK_MODE == WORK_MODE_SOC)
    app_init();
#endif

    usr_init();

    sleep_init();
    wakeup_by_sleep_timer(__32K_TYPE);

    GLOBAL_INT_START();
		
		ke_schedule();
		
		//ke_timer_set(APP_SYS_SLEEP_TIMER, TASK_APP, 300);
		
		// start advertizing as soon as power is gained.
		// start adv
    app_gap_adv_start_req(GAP_GEN_DISCOVERABLE|GAP_UND_CONNECTABLE,
      app_env.adv_data, app_set_adv_data(GAP_GEN_DISCOVERABLE),
      app_env.scanrsp_data, app_set_scan_rsp_data(app_get_local_service_flag()),
      GAP_ADV_FAST_INTV1, GAP_ADV_FAST_INTV2);
    // prevent entering into deep sleep mode
		sleep_set_pm(PM_SLEEP);

    while(1)
    {
        ke_schedule();

        // Checks for sleep have to be done with interrupt disabled
        GLOBAL_INT_DISABLE_WITHOUT_TUNER();

        // Check whether the chip can enters sleep mode
        //
        // Chip enter sleep condition:
        // +--------+--------+--------+--------+--------+
        // |    USR |        |        |        |        |
        // | BLE    | ACTIVE | IDLE   | SLEEP  | DEEP   |
        // +--------+--------+--------+--------+--------+
        // | ACTIVE | active | active | active | active |
        // | IDLE   | active | idle   | idle   | idle   |
        // | SLEEP  | active | idle   | sleep  | deep   |
        // +--------+--------+--------+--------+--------+

        // Obtain the status of the user program
        usr_sleep_st = usr_sleep();

        // If the user program can be sleep or deep sleep then check ble status
        if(usr_sleep_st != PM_ACTIVE)
        {
            // Obtain the status of ble sleep mode
            ble_sleep_st = ble_sleep(usr_sleep_st);

            // Check if the processor clock can be gated
            if(((ble_sleep_st == PM_IDLE) || (usr_sleep_st == PM_IDLE))
             && (ble_sleep_st != PM_ACTIVE))
            {
                // Debug
                led_set(5, LED_OFF);
                led_set(4, LED_ON);  // led4 is on when enter into gating mode

                enter_sleep(SLEEP_CPU_CLK_OFF,
                            WAKEUP_BY_ALL_IRQ_SOURCE,
                            NULL);

                // Debug
                led_set(4, LED_OFF);
                led_set(5, LED_ON);  // led5 is on when enter into active mode
            }

            // Check if the processor can be power down
            else if((ble_sleep_st == PM_SLEEP) && (usr_sleep_st == PM_SLEEP))
            {
                // Debug
                led_set(5, LED_OFF);
                led_set(3, LED_ON);  // led3 is on when enter into sleep mode

                enter_sleep(SLEEP_NORMAL,
                            (WAKEUP_BY_OSC_EN | WAKEUP_BY_GPIO),
                            sleep_cb);

                // Debug
                led_set(3, LED_OFF);
                led_set(5, LED_ON);  // led5 is on when enter into active mode
            }

            // Check if the system can be deep sleep
            else if((ble_sleep_st == PM_SLEEP) && (usr_sleep_st == PM_DEEP_SLEEP))
            {
                // Debug
                led_set(5, LED_OFF);
                led_set(2, LED_ON);  // led2 is on when enter into deep sleep mode

                enter_sleep(SLEEP_DEEP,
                            WAKEUP_BY_GPIO,
                            sleep_cb);

                // Debug
                led_set(2, LED_OFF);
                led_set(5, LED_ON);  // led5 is on when enter into active mode
            }
        }

        // Checks for sleep have to be done with interrupt disabled
        GLOBAL_INT_RESTORE_WITHOUT_TUNER();
    }
}
Exemplo n.º 12
0
/**
 ****************************************************************************************
 * @brief   Application task message handler
 ****************************************************************************************
 */
void app_task_msg_hdl(ke_msg_id_t const msgid, void const *param)
{
    switch(msgid)
    {
        case GAP_SET_MODE_REQ_CMP_EVT:
            if(APP_IDLE == ke_state_get(TASK_APP))
            {
                usr_led1_set(LED_ON_DUR_ADV_FAST, LED_OFF_DUR_ADV_FAST);
                ke_timer_set(APP_ADV_INTV_UPDATE_TIMER, TASK_APP, 30 * 100);
            }
            else if(APP_ADV == ke_state_get(TASK_APP))
            {
                usr_led1_set(LED_ON_DUR_ADV_SLOW, LED_OFF_DUR_ADV_SLOW);
            }
            break;

        case GAP_ADV_REQ_CMP_EVT:
            usr_led1_set(LED_ON_DUR_IDLE, LED_OFF_DUR_IDLE);
            ke_timer_clear(APP_ADV_INTV_UPDATE_TIMER, TASK_APP);
            break;

        case GAP_DISCON_CMP_EVT:
            usr_led1_set(LED_ON_DUR_IDLE, LED_OFF_DUR_IDLE);
            ke_timer_clear(APP_BASS_BATT_LEVEL_TIMER, TASK_APP);

            // start adv
            app_gap_adv_start_req(GAP_GEN_DISCOVERABLE|GAP_UND_CONNECTABLE,
                    app_env.adv_data, app_set_adv_data(GAP_GEN_DISCOVERABLE),
                    app_env.scanrsp_data, app_set_scan_rsp_data(app_get_local_service_flag()),
                    GAP_ADV_FAST_INTV1, GAP_ADV_FAST_INTV2);
            break;

        case GAP_LE_CREATE_CONN_REQ_CMP_EVT:
            if(((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.status == CO_ERROR_NO_ERROR)
            {
                if(GAP_PERIPHERAL_SLV == app_get_role())
                {
                    ke_timer_clear(APP_ADV_INTV_UPDATE_TIMER, TASK_APP);
                    usr_led1_set(LED_ON_DUR_CON, LED_OFF_DUR_CON);

                    // Update cnx parameters
                    if (((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.con_interval < GAP_PPCP_CONN_INTV_MIN)
                    {
                        // Update connection parameters here
                        struct gap_conn_param_update conn_par;
                        /// Connection interval minimum
                        conn_par.intv_min = GAP_PPCP_CONN_INTV_MIN;
                        /// Connection interval maximum
                        conn_par.intv_max = GAP_PPCP_CONN_INTV_MAX;
                        /// Latency
                        conn_par.latency = GAP_PPCP_SLAVE_LATENCY;
                        /// Supervision timeout, Time = N * 10 msec
                        conn_par.time_out = GAP_PPCP_STO_MULT;
                        app_gap_param_update_req(((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.conhdl, &conn_par);
                    }
                }

                //Force immediately update the battery voltage
                app_bass_batt_level_timer_handler(APP_BASS_BATT_LEVEL_TIMER, NULL, TASK_APP, TASK_APP);
            }
            break;

        case BASS_DISABLE_IND:
            ke_timer_clear(APP_BASS_BATT_LEVEL_TIMER, TASK_APP);
            break;

        case BASS_BATT_LEVEL_NTF_CFG_IND:
            if (((struct bass_batt_level_ntf_cfg_ind *)param)->ntf_cfg == PRF_CLI_START_NTF)
            {
                // Start update timer
                ke_timer_set(APP_BASS_BATT_LEVEL_TIMER, TASK_APP, APP_BASS_BATT_LEVEL_TO);
            }
            else
            {
                // Stop update timer
                ke_timer_clear(APP_BASS_BATT_LEVEL_TIMER, TASK_APP);
            }
            break;

        default:
            break;
    }
}
Exemplo n.º 13
0
/**
 ****************************************************************************************
 * @brief   Application task message handler
 ****************************************************************************************
 */
void app_task_msg_hdl(ke_msg_id_t const msgid, void const *param)
{
    switch(msgid)
    {
        case GAP_SET_MODE_REQ_CMP_EVT:
            if(APP_IDLE == ke_state_get(TASK_APP))
            {
                usr_led1_set(LED_ON_DUR_ADV_FAST, LED_OFF_DUR_ADV_FAST);
                ke_timer_set(APP_ADV_INTV_UPDATE_TIMER, TASK_APP, 30 * 100);
#if (defined(QN_ADV_WDT))
                usr_env.adv_wdt_enable = true;
#endif
            }
            else if(APP_ADV == ke_state_get(TASK_APP))
            {
                usr_led1_set(LED_ON_DUR_ADV_SLOW, LED_OFF_DUR_ADV_SLOW);
#if (defined(QN_ADV_WDT))
                usr_env.adv_wdt_enable = true;
#endif
            }
						
#if	(FB_OLED)
						ke_timer_set(APP_OLED_DISPLAY_TIMER,TASK_APP,20);
#endif
            break;

        case GAP_ADV_REQ_CMP_EVT:
            usr_led1_set(LED_ON_DUR_IDLE, LED_OFF_DUR_IDLE);
            ke_timer_clear(APP_ADV_INTV_UPDATE_TIMER, TASK_APP);
            break;

        case GAP_DISCON_CMP_EVT:
            usr_led1_set(LED_ON_DUR_IDLE, LED_OFF_DUR_IDLE);

            // start adv
            app_gap_adv_start_req(GAP_GEN_DISCOVERABLE|GAP_UND_CONNECTABLE,
                    app_env.adv_data, app_set_adv_data(GAP_GEN_DISCOVERABLE),
                    app_env.scanrsp_data, app_set_scan_rsp_data(app_get_local_service_flag()),
                    GAP_ADV_FAST_INTV1, GAP_ADV_FAST_INTV2);
            break;

        case GAP_LE_CREATE_CONN_REQ_CMP_EVT:
            if(((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.status == CO_ERROR_NO_ERROR)
            {
                if(GAP_PERIPHERAL_SLV == app_get_role())
                {
                    ke_timer_clear(APP_ADV_INTV_UPDATE_TIMER, TASK_APP);
                    usr_led1_set(LED_ON_DUR_CON, LED_OFF_DUR_CON);
#if (defined(QN_ADV_WDT))
                    usr_env.adv_wdt_enable = false;
#endif

                    // Update cnx parameters
                    if (((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.con_interval < GAP_PPCP_CONN_INTV_MIN)
                    {
                        // Update connection parameters here
                        struct gap_conn_param_update conn_par;
                        /// Connection interval minimum
                        conn_par.intv_min = GAP_PPCP_CONN_INTV_MIN;
                        /// Connection interval maximum
                        conn_par.intv_max = GAP_PPCP_CONN_INTV_MAX;
                        /// Latency
                        conn_par.latency = GAP_PPCP_SLAVE_LATENCY;
                        /// Supervision timeout, Time = N * 10 msec
                        conn_par.time_out = GAP_PPCP_STO_MULT;
                        app_gap_param_update_req(((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.conhdl, &conn_par);
                    }
                }
            }
            break;

        case PROXR_ALERT_IND:
				{
            usr_proxr_alert((struct proxr_alert_ind*)param);
				}
            break;
				
#if	(BLE_OTA_SERVER)						
        case OTAS_TRANSIMIT_STATUS_IND:
            QPRINTF(" APP get OTA transmit status = %d , describe = %d \r\n" , ((struct otas_transimit_status_ind*)param)->status,
                                                                              ((struct otas_transimit_status_ind*)param)->status_des);
            
            //only need response once when ota status is in ota status start request
            if(((struct otas_transimit_status_ind*)param)->status == OTA_STATUS_START_REQ)  
            {
                app_ota_ctrl_resp(START_OTA);
            }
            break;
//end
#endif				
						
				case QPPS_DAVA_VAL_IND:
				{
				}
					break;

        default:
            break;	
    }
#if	(FB_OLED)
		ke_timer_set(APP_OLED_STATE_DISPlAY_TIMER,TASK_APP,20);
#endif	
}
Exemplo n.º 14
0
/**
 ****************************************************************************************
 * @brief   Application task message handler
 ****************************************************************************************
 */
void app_task_msg_hdl(ke_msg_id_t const msgid, void const *param)
{
    switch(msgid)
    {
        case GAP_SET_MODE_REQ_CMP_EVT:
            if(APP_IDLE == ke_state_get(TASK_APP))
            {
                usr_led1_set(LED_ON_DUR_ADV_FAST, LED_OFF_DUR_ADV_FAST);
                ke_timer_set(APP_ADV_INTV_UPDATE_TIMER, TASK_APP, 30 * 100);
#if (defined(QN_ADV_WDT))
                usr_env.adv_wdt_enable = true;
#endif
            }
            else if(APP_ADV == ke_state_get(TASK_APP))
            {
                usr_led1_set(LED_ON_DUR_ADV_SLOW, LED_OFF_DUR_ADV_SLOW);
#if (defined(QN_ADV_WDT))
                usr_env.adv_wdt_enable = true;
#endif
            }
            break;

        case GAP_ADV_REQ_CMP_EVT:
            usr_led1_set(LED_ON_DUR_IDLE, LED_OFF_DUR_IDLE);
            ke_timer_clear(APP_ADV_INTV_UPDATE_TIMER, TASK_APP);
            break;

        case GAP_DISCON_CMP_EVT:
            usr_led1_set(LED_ON_DUR_IDLE, LED_OFF_DUR_IDLE);

            // start adv
            app_gap_adv_start_req(GAP_GEN_DISCOVERABLE|GAP_UND_CONNECTABLE,
                    app_env.adv_data, app_set_adv_data(GAP_GEN_DISCOVERABLE),
                    app_env.scanrsp_data, app_set_scan_rsp_data(app_get_local_service_flag()),
                    GAP_ADV_FAST_INTV1, GAP_ADV_FAST_INTV2);
            break;

        case GAP_LE_CREATE_CONN_REQ_CMP_EVT:
            if(((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.status == CO_ERROR_NO_ERROR)
            {
                if(GAP_PERIPHERAL_SLV == app_get_role())
                {
                    ke_timer_clear(APP_ADV_INTV_UPDATE_TIMER, TASK_APP);
                    usr_led1_set(LED_ON_DUR_CON, LED_OFF_DUR_CON);
#if (defined(QN_ADV_WDT))
                    usr_env.adv_wdt_enable = false;
#endif

                    // Update cnx parameters
                    if (((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.con_interval < GAP_PPCP_CONN_INTV_MIN)
                    {
                        // Update connection parameters here
                        struct gap_conn_param_update conn_par;
                        /// Connection interval minimum
                        conn_par.intv_min = GAP_PPCP_CONN_INTV_MIN;
                        /// Connection interval maximum
                        conn_par.intv_max = GAP_PPCP_CONN_INTV_MAX;
                        /// Latency
                        conn_par.latency = GAP_PPCP_SLAVE_LATENCY;
                        /// Supervision timeout, Time = N * 10 msec
                        conn_par.time_out = GAP_PPCP_STO_MULT;
                        app_gap_param_update_req(((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.conhdl, &conn_par);
                    }
                }
            }
            break;

        case RSCPS_DISABLE_IND:
            ke_timer_clear(APP_RSCPS_MEAS_SEND_TIMER, TASK_APP);
            break;

        case RSCPS_NTF_IND_CFG_IND:
        {
            struct rscps_ntf_ind_cfg_ind *cfg = (struct rscps_ntf_ind_cfg_ind *)param;
            
            if (cfg->char_code == RSCP_RSCS_RSC_MEAS_CHAR)
            {
                if (app_rscps_env->app_cfg & RSCP_PRF_CFG_FLAG_RSC_MEAS_NTF)
                {
                    app_rscps_env->ntf_sending = false;
                    ke_timer_set(APP_RSCPS_MEAS_SEND_TIMER, TASK_APP, APP_RSCPS_MEAS_SEND_TO);
                }
                else
                {
                    ke_timer_clear(APP_RSCPS_MEAS_SEND_TIMER, TASK_APP);
                }
            }
            else if (cfg->char_code == RSCP_RSCS_SC_CTNL_PT_CHAR)
            {
                ;
            }
            break;
        }

        case RSCPS_SC_CTNL_PT_REQ_IND:
        {
            struct rscps_sc_ctnl_pt_req_ind *cfg = (struct rscps_sc_ctnl_pt_req_ind *)param;
            union rscps_sc_ctnl_pt_cfm_value value;

            switch (cfg->op_code)
            {
                case RSCP_CTNL_PT_OP_SET_CUMUL_VAL:
                    app_rscps_sc_ctnl_pt_cfm(app_rscps_env->conhdl, PRF_ERR_OK, &value);
                    break;
                case RSCP_CTNL_PT_OP_START_CALIB:
                    app_rscps_sc_ctnl_pt_cfm(app_rscps_env->conhdl, PRF_ERR_OK, &value);
                    break;
                case RSCP_CTNL_PT_OP_UPD_LOC:
                    value.sensor_loc = cfg->value.sensor_loc;
                    app_rscps_sc_ctnl_pt_cfm(app_rscps_env->conhdl, PRF_ERR_OK, &value);
                    break;
                case RSCP_CTNL_PT_OP_REQ_SUPP_LOC:
                    value.supp_sensor_loc = 0x001f;
                    app_rscps_sc_ctnl_pt_cfm(app_rscps_env->conhdl, PRF_ERR_OK, &value);
                    break;
            }
            break;
        }

        default:
            break;
    }
}
Exemplo n.º 15
0
/**
 ****************************************************************************************
 * @brief   Application task message handler
 ****************************************************************************************
 */
void app_task_msg_hdl(ke_msg_id_t const msgid, void const *param)
{
    switch(msgid)
    {
        case GAP_SET_MODE_REQ_CMP_EVT:
            if(APP_IDLE == ke_state_get(TASK_APP))
            {
                usr_led1_set(LED_ON_DUR_ADV_FAST, LED_OFF_DUR_ADV_FAST);
                ke_timer_set(APP_ADV_INTV_UPDATE_TIMER, TASK_APP, 30 * 100);
            }
            else if(APP_ADV == ke_state_get(TASK_APP))
            {
                usr_led1_set(LED_ON_DUR_ADV_SLOW, LED_OFF_DUR_ADV_SLOW);
            }
            break;

        case GAP_ADV_REQ_CMP_EVT:
            usr_led1_set(LED_ON_DUR_IDLE, LED_OFF_DUR_IDLE);
            ke_timer_clear(APP_ADV_INTV_UPDATE_TIMER, TASK_APP);
            break;

        case GAP_DISCON_CMP_EVT:
            usr_led1_set(LED_ON_DUR_IDLE, LED_OFF_DUR_IDLE);

            // start adv
            app_gap_adv_start_req(GAP_GEN_DISCOVERABLE|GAP_UND_CONNECTABLE,
                    app_env.adv_data, app_set_adv_data(GAP_GEN_DISCOVERABLE),
                    app_env.scanrsp_data, app_set_scan_rsp_data(app_get_local_service_flag()),
                    GAP_ADV_FAST_INTV1, GAP_ADV_FAST_INTV2);
            break;

        case GAP_LE_CREATE_CONN_REQ_CMP_EVT:
            if(((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.status == CO_ERROR_NO_ERROR)
            {
                if(GAP_PERIPHERAL_SLV == app_get_role())
                {
                    ke_timer_clear(APP_ADV_INTV_UPDATE_TIMER, TASK_APP);
                    usr_led1_set(LED_ON_DUR_CON, LED_OFF_DUR_CON);

                    // Update cnx parameters
                    if (((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.con_interval < GAP_PPCP_CONN_INTV_MIN)
                    {
                        // Update connection parameters here
                        struct gap_conn_param_update conn_par;
                        /// Connection interval minimum
                        conn_par.intv_min = IOS_MIN_PARAM_INTV_MIN;
                        /// Connection interval maximum
                        conn_par.intv_max = IOS_MIN_PARAM_IMTV_MAX;
                        /// Latency
                        conn_par.latency = IOS_MIN_PARAM_LATENCY;
                        /// Supervision timeout, Time = N * 10 msec
                        conn_par.time_out = IOS_MIN_PARAM_TIME_OUT;
                        app_gap_param_update_req(((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.conhdl, &conn_par);
                    }
                }
            }
            break;

        case PROXR_ALERT_IND:
            usr_proxr_alert((struct proxr_alert_ind*)param);
            break;
        
        case OTAS_TRANSIMIT_STATUS_IND:
            
            #ifdef ENAB_OTAS_APP_CTRL
            //only need response once when ota status is in ota status start request
            if(((struct otas_transimit_status_ind*)param)->status == OTA_STATUS_START_REQ)  
            {
                app_ota_ctrl_resp(START_OTA);
            }
            #endif 
            break;

        default:
            break;
    }
}
Exemplo n.º 16
0
/**
 ****************************************************************************************
 * @brief   Application task message handler
 ****************************************************************************************
 */
void app_task_msg_hdl(ke_msg_id_t const msgid, void const *param)
{
    switch(msgid)
    {
        case GAP_SET_MODE_REQ_CMP_EVT:
            if(APP_IDLE == ke_state_get(TASK_APP))
            {
                usr_led1_set(LED_ON_DUR_ADV_FAST, LED_OFF_DUR_ADV_FAST);
                ke_timer_set(APP_ADV_INTV_UPDATE_TIMER, TASK_APP, 30 * 100);
#if (defined(QN_ADV_WDT))
                usr_env.adv_wdt_enable = true;
#endif
            }
            else if(APP_ADV == ke_state_get(TASK_APP))
            {
                usr_led1_set(LED_ON_DUR_ADV_SLOW, LED_OFF_DUR_ADV_SLOW);
#if (defined(QN_ADV_WDT))
                usr_env.adv_wdt_enable = true;
#endif
            }
            break;

        case GAP_ADV_REQ_CMP_EVT:
            usr_led1_set(LED_ON_DUR_IDLE, LED_OFF_DUR_IDLE);
            ke_timer_clear(APP_ADV_INTV_UPDATE_TIMER, TASK_APP);
            break;

        case GAP_DISCON_CMP_EVT:
            usr_led1_set(LED_ON_DUR_IDLE, LED_OFF_DUR_IDLE);

            // start adv
            app_gap_adv_start_req(GAP_GEN_DISCOVERABLE|GAP_UND_CONNECTABLE,
                    app_env.adv_data, app_set_adv_data(GAP_GEN_DISCOVERABLE),
                    app_env.scanrsp_data, app_set_scan_rsp_data(app_get_local_service_flag()),
                    GAP_ADV_FAST_INTV1, GAP_ADV_FAST_INTV2);
            break;

        case GAP_LE_CREATE_CONN_REQ_CMP_EVT:
            if(((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.status == CO_ERROR_NO_ERROR)
            {
                if(GAP_PERIPHERAL_SLV == app_get_role())
                {
                    ke_timer_clear(APP_ADV_INTV_UPDATE_TIMER, TASK_APP);
                    usr_led1_set(LED_ON_DUR_CON, LED_OFF_DUR_CON);
#if (defined(QN_ADV_WDT))
                    usr_env.adv_wdt_enable = false;
#endif
                    // Update cnx parameters
                    if (((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.con_interval < GAP_PPCP_CONN_INTV_MIN)
                    {
                        // Update connection parameters here
                        struct gap_conn_param_update conn_par;
                        /// Connection interval minimum
                        conn_par.intv_min = IOS_CONN_INTV_MIN;
                        /// Connection interval maximum
                        conn_par.intv_max = IOS_CONN_INTV_MAX;
                        /// Latency
                        conn_par.latency = IOS_SLAVE_LATENCY;
                        /// Supervision timeout, Time = N * 10 msec
                        conn_par.time_out = IOS_STO_MULT;
                        app_gap_param_update_req(((struct gap_le_create_conn_req_cmp_evt *)param)->conn_info.conhdl, &conn_par);
                    }
                }
            }
            break;

        case HRPS_DISABLE_IND:
            ke_timer_clear(APP_HRPS_TIMER, TASK_APP);
            break;

        case HRPS_CFG_INDNTF_IND:
            if (((struct hrps_cfg_indntf_ind *)param)->cfg_val == PRF_CLI_START_NTF)
            {
                app_hrps_env->ntf_sending = false;
                ke_timer_set(APP_HRPS_TIMER, TASK_APP, APP_HEART_RATE_MEASUREMENT_TO);
            }
            else
            {
                ke_timer_clear(APP_HRPS_TIMER, TASK_APP);
            }
            break;

        default:
            break;
    }
}