DCL_STATUS gpio_15_segment_led_init() { #if defined(DRV_GPIO_FOR_LED_AND_15_SEGMENT) debug1_Handle = DclGPIO_Open(DCL_GPIO,62); debug2_Handle = DclGPIO_Open(DCL_GPIO,63); debug3_Handle = DclGPIO_Open(DCL_GPIO,64); debug4_Handle = DclGPIO_Open(DCL_GPIO,65); DclGPIO_Control(debug1_Handle,GPIO_CMD_SET_MODE_0,0); DclGPIO_Control(debug1_Handle,GPIO_CMD_SET_DIR_OUT,0); DclGPIO_Control(debug1_Handle,GPIO_CMD_WRITE_HIGH,0); DclGPIO_Control(debug2_Handle,GPIO_CMD_SET_MODE_0,0); DclGPIO_Control(debug2_Handle,GPIO_CMD_SET_DIR_OUT,0); DclGPIO_Control(debug2_Handle,GPIO_CMD_WRITE_HIGH,0); DclGPIO_Control(debug3_Handle,GPIO_CMD_SET_MODE_0,0); DclGPIO_Control(debug3_Handle,GPIO_CMD_SET_DIR_OUT,0); DclGPIO_Control(debug3_Handle,GPIO_CMD_WRITE_HIGH,0); DclGPIO_Control(debug4_Handle,GPIO_CMD_SET_MODE_0,0); DclGPIO_Control(debug4_Handle,GPIO_CMD_SET_DIR_OUT,0); DclGPIO_Control(debug4_Handle,GPIO_CMD_WRITE_HIGH,0); if(fifteen_segment_timer == NULL) fifteen_segment_timer = kal_create_timer("15_segment_TIMER"); return STATUS_OK; #else return STATUS_FAIL; #endif }
void BGSND_INIT() { memset(&bgSnd, 0, sizeof(BGSND_T)); // get audio ID bgSnd.aud_id = L1Audio_GetAudioID(); L1Audio_SetEventHandler( bgSnd.aud_id, (L1Audio_EventHandler)bgsndEventHandler ); bgSnd.timer = kal_create_timer("bgSnd"); }
DCL_STATUS gpio_led_init() { #if defined(GPIO_NUMBER_FOR_LED1) led1_handle = DclGPIO_Open(DCL_GPIO,GPIO_NUMBER_FOR_LED1); DclGPIO_Control(led1_handle,GPIO_CMD_SET_MODE_0,0); DclGPIO_Control(led1_handle,GPIO_CMD_SET_DIR_OUT,0); DclGPIO_Control(led1_handle,GPIO_CMD_WRITE_LOW,0); if(led1_timer == NULL) led1_timer = kal_create_timer("LED1_TIMER"); #endif #if defined(GPIO_NUMBER_FOR_LED2) led2_handle = DclGPIO_Open(DCL_GPIO,GPIO_NUMBER_FOR_LED2); DclGPIO_Control(led2_handle,GPIO_CMD_SET_MODE_0,0); DclGPIO_Control(led2_handle,GPIO_CMD_SET_DIR_OUT,0); DclGPIO_Control(led2_handle,GPIO_CMD_WRITE_LOW,0);//low level means led do not light if(led2_timer == NULL) led2_timer = kal_create_timer("LED2_TIMER"); #endif return STATUS_OK; }
void ADIE_SetRefreshTimer(void) { #if defined(MT6250) TM_TCB *tm_ptr; kal_internal_timerid kal_timer; ADIE_IRQ_Timer = kal_create_timer("ADIE_IRQ"); kal_timer = (kal_internal_timerid)ADIE_IRQ_Timer; tm_ptr = &(((TM_APP_TCB *)&(kal_timer->timer_id))->tm_actual_timer); kal_set_aligned_timer(tm_ptr, ALIGNED_TIMER_MAX_DELAY); kal_set_timer(ADIE_IRQ_Timer, (kal_timer_func_ptr)ADIE_IRQ_TimerCallback, NULL, KAL_TICKS_100_MSEC, KAL_TICKS_100_MSEC); #endif }
/* * FUNCTION * e_compass_sensor_init * * DESCRIPTION * This function is to initialize e_compass sensor driver * * CALLS * * PARAMETERS * None * * RETURNS * None */ void e_compass_init(void) { /*get customization functin data and function pointr*/ e_compass_sensor_custom_fp = ec_GetFunc(); e_compass_sensor_custom_fp->ec_custom_init(); e_compass_sensor_custom_dp=e_compass_sensor_custom_fp->ec_get_data(); /* init calibration state and GPT handle for sample and calibration */ e_compass_sensor_data.cali_state = E_COMPASS_SENSOR_CALI_NONE; GPTI_GetHandle(&(e_compass_sensor_data.sample_handle)); e_compass_flush_data_buffer(); e_compass_power_on_timer_id = kal_create_timer("E_Compass_Power_On_Timer"); }
void lpm_init(void) { #if 1 /*TBC...*/ { LPM_REG_CLR_SET(PLL_CLKSW_FDIV2, 0xF<<0, 4<<0); DRV_SetReg32(PLL_CLKSW_FDIV6, 0x04); DRV_SetReg32(PLL_CLKSW_FDIV6, 0x0100); DRV_ClrReg32(PLL_CLKSW_FDIV6, 0x0100); } PDN_CLR(PDN_LPM); #endif /* It is disabled for low power(TOPSM) requirement. */ kal_set_timer(kal_create_timer("DCM_Timer"), (kal_timer_func_ptr)DCM_Trace, NULL, KAL_TICKS_5_SEC, KAL_TICKS_5_SEC); }
DCL_STATUS gpio_15_segment_led_control(kal_uint8 word1, kal_uint8 word2) { #if defined(DRV_GPIO_FOR_LED_AND_15_SEGMENT) kal_uint32 savedMask; DCL_HANDLE handle; PMU_CTRL_LDO_BUCK_SET_EN val; PMU_CTRL_LDO_BUCK_SET_VOLTAGE val1; val1.voltage = PMU_VOLT_02_800000_V; val1.mod = VMC; handle = DclPMU_Open(DCL_PMU,FLAGS_NONE); DclPMU_Control(handle, LDO_BUCK_SET_VOLTAGE,(DCL_CTRL_DATA_T *)&val1); val.enable = DCL_TRUE; val.mod = VMC; DclPMU_Control(handle, LDO_BUCK_SET_EN,(DCL_CTRL_DATA_T *)&val); DclPMU_Close(handle); if(debug1_Handle == 0 || debug2_Handle == 0 || debug3_Handle == 0 || debug4_Handle == 0) { debug1_Handle = DclGPIO_Open(DCL_GPIO,62); debug2_Handle = DclGPIO_Open(DCL_GPIO,63); debug3_Handle = DclGPIO_Open(DCL_GPIO,64); debug4_Handle = DclGPIO_Open(DCL_GPIO,65); } if(fifteen_segment_timer == NULL) fifteen_segment_timer = kal_create_timer("15_segment_TIMER"); switch(word1) { case '2': { savedMask = SaveAndSetIRQMask(); word_to_display = char_to_display_table1; table_count = 6; RestoreIRQMask(savedMask); kal_set_timer(fifteen_segment_timer,(kal_timer_func_ptr) gpio_15_segment_display, NULL, 1, 1); break; } case '3': { if(word2 == 1) { savedMask = SaveAndSetIRQMask(); word_to_display = char_to_display_table7; table_count = 7; RestoreIRQMask(savedMask); kal_set_timer(fifteen_segment_timer,(kal_timer_func_ptr) gpio_15_segment_display, NULL, 1, 1); } else { savedMask = SaveAndSetIRQMask(); word_to_display = char_to_display_table6; table_count = 6; RestoreIRQMask(savedMask); kal_set_timer(fifteen_segment_timer, (kal_timer_func_ptr)gpio_15_segment_display,NULL, 1, 1); } break; } case '6': { if(word2 == 1) { savedMask = SaveAndSetIRQMask(); word_to_display = char_to_display_table3; table_count = 8; RestoreIRQMask(savedMask); kal_set_timer(fifteen_segment_timer, (kal_timer_func_ptr)gpio_15_segment_display, NULL, 1, 1); } else { savedMask = SaveAndSetIRQMask(); word_to_display = char_to_display_table2; table_count = 7; RestoreIRQMask(savedMask); kal_set_timer(fifteen_segment_timer,(kal_timer_func_ptr) gpio_15_segment_display, NULL, 1, 1); } break; } case 'd': { savedMask = SaveAndSetIRQMask(); word_to_display = char_to_display_table12; table_count = 7; RestoreIRQMask(savedMask); kal_set_timer(fifteen_segment_timer,(kal_timer_func_ptr) gpio_15_segment_display, NULL, 1, 1); break; } case 'E': { if(word2 == 1) { savedMask = SaveAndSetIRQMask(); word_to_display = char_to_display_table5; table_count = 7; RestoreIRQMask(savedMask); kal_set_timer(fifteen_segment_timer, (kal_timer_func_ptr)gpio_15_segment_display, NULL, 1, 1); } else { savedMask = SaveAndSetIRQMask(); word_to_display = char_to_display_table4; table_count = 6; RestoreIRQMask(savedMask); kal_set_timer(fifteen_segment_timer,(kal_timer_func_ptr) gpio_15_segment_display, NULL, 1, 1); } break; } case 'h': { if(word2 == 1) { savedMask = SaveAndSetIRQMask(); word_to_display = char_to_display_table9; table_count = 6; RestoreIRQMask(savedMask); kal_set_timer(fifteen_segment_timer, (kal_timer_func_ptr)gpio_15_segment_display, NULL, 1, 1); } else { savedMask = SaveAndSetIRQMask(); word_to_display = char_to_display_table8; table_count = 5; RestoreIRQMask(savedMask); kal_set_timer(fifteen_segment_timer, (kal_timer_func_ptr)gpio_15_segment_display, NULL, 1, 1); } break; } case 'H': { if(word2 == 1) { savedMask = SaveAndSetIRQMask(); word_to_display = char_to_display_table11; table_count = 7; RestoreIRQMask(savedMask); kal_set_timer(fifteen_segment_timer, (kal_timer_func_ptr)gpio_15_segment_display, NULL, 1, 1); } else { savedMask = SaveAndSetIRQMask(); word_to_display = char_to_display_table10; table_count = 6; RestoreIRQMask(savedMask); kal_set_timer(fifteen_segment_timer,(kal_timer_func_ptr) gpio_15_segment_display, NULL, 1, 1); } break; } case 'I': { savedMask = SaveAndSetIRQMask(); word_to_display = char_to_display_table17; table_count = 4; RestoreIRQMask(savedMask); kal_set_timer(fifteen_segment_timer, (kal_timer_func_ptr)gpio_15_segment_display, NULL, 1, 1); break; } case 'L': { savedMask = SaveAndSetIRQMask(); word_to_display = char_to_display_table15; table_count = 3; RestoreIRQMask(savedMask); kal_set_timer(fifteen_segment_timer,(kal_timer_func_ptr) gpio_15_segment_display, NULL, 1, 1); break; } case 'N': { savedMask = SaveAndSetIRQMask(); word_to_display = char_to_display_table16; table_count = 6; RestoreIRQMask(savedMask); kal_set_timer(fifteen_segment_timer,(kal_timer_func_ptr) gpio_15_segment_display, NULL, 1, 1); break; } case 'X': { savedMask = SaveAndSetIRQMask(); word_to_display = char_to_display_table13; table_count = 4; RestoreIRQMask(savedMask); kal_set_timer(fifteen_segment_timer,(kal_timer_func_ptr) gpio_15_segment_display, NULL, 1, 1); break; } case 0: { kal_cancel_timer(fifteen_segment_timer); DclGPIO_Control(debug1_Handle,GPIO_CMD_WRITE_HIGH,0); DclGPIO_Control(debug2_Handle,GPIO_CMD_WRITE_HIGH,0); DclGPIO_Control(debug3_Handle,GPIO_CMD_WRITE_HIGH,0); DclGPIO_Control(debug4_Handle,GPIO_CMD_WRITE_HIGH,0); break; } default: { ASSERT(0); return STATUS_INVALID_CTRL_DATA; } } return STATUS_OK; #else return STATUS_FAIL; #endif }