/* ===================================================================*/
LDD_TDeviceData* DMA1_Init(void)
{
DMA1_TDeviceData *DevDataPtr; /* LDD device structure */
/* {Default RTOS Adapter} Driver memory allocation: Dynamic allocation is simulated by a pointer to the static object */
DevDataPtr = &DevDataPtr__DEFAULT_RTOS_ALLOC;
/* {Default RTOS Adapter} Driver memory allocation: Fill the allocated memory by zero value */
PE_FillMemory(DevDataPtr, 0U, sizeof(DMA1_TDeviceData));
/* Transfer complete interrupt vector(INT_DMA0) allocation */
/* {Default RTOS Adapter} Set interrupt vector: IVT is static, ISR parameter is passed by the global variable */
INT_DMA0__DEFAULT_RTOS_ISRPARAM = DevDataPtr;
/* Transfer error interrupt vector(INT_DMA_Error) allocation */
/* {Default RTOS Adapter} Set interrupt vector: IVT is static, ISR parameter is passed by the global variable */
INT_DMA_Error__DEFAULT_RTOS_ISRPARAM = DevDataPtr;
/* Transfer complete interrupt vector(INT_DMA0) priority setting */
/* NVIC_IPR0: PRI_0=1 */
NVIC_IPR0 = (uint32_t)((NVIC_IPR0 & (uint32_t)~(uint32_t)(
NVIC_IP_PRI_0(0x02)
)) | (uint32_t)(
NVIC_IP_PRI_0(0x01)
));
/* NVIC_ISER: SETENA31=0,SETENA30=0,SETENA29=0,SETENA28=0,SETENA27=0,SETENA26=0,SETENA25=0,SETENA24=0,SETENA23=0,SETENA22=0,SETENA21=0,SETENA20=0,SETENA19=0,SETENA18=0,SETENA17=0,SETENA16=0,SETENA15=0,SETENA14=0,SETENA13=0,SETENA12=0,SETENA11=0,SETENA10=0,SETENA9=0,SETENA8=0,SETENA7=0,SETENA6=0,SETENA5=0,SETENA4=0,SETENA3=0,SETENA2=0,SETENA1=0,SETENA0=1 */
NVIC_ISER = NVIC_ISER_SETENA0_MASK;
/* NVIC_ICER: CLRENA31=0,CLRENA30=0,CLRENA29=0,CLRENA28=0,CLRENA27=0,CLRENA26=0,CLRENA25=0,CLRENA24=0,CLRENA23=0,CLRENA22=0,CLRENA21=0,CLRENA20=0,CLRENA19=0,CLRENA18=0,CLRENA17=0,CLRENA16=0,CLRENA15=0,CLRENA14=0,CLRENA13=0,CLRENA12=0,CLRENA11=0,CLRENA10=0,CLRENA9=0,CLRENA8=0,CLRENA7=0,CLRENA6=0,CLRENA5=0,CLRENA4=0,CLRENA3=0,CLRENA2=0,CLRENA1=0,CLRENA0=0 */
NVIC_ICER = 0x00U;
/* Transfer error interrupt vector(INT_DMA_Error) priority setting */
/* NVIC_IPR1: PRI_4=1 */
NVIC_IPR1 = (uint32_t)((NVIC_IPR1 & (uint32_t)~(uint32_t)(
NVIC_IP_PRI_4(0x02)
)) | (uint32_t)(
NVIC_IP_PRI_4(0x01)
));
/* NVIC_ISER: SETENA31=0,SETENA30=0,SETENA29=0,SETENA28=0,SETENA27=0,SETENA26=0,SETENA25=0,SETENA24=0,SETENA23=0,SETENA22=0,SETENA21=0,SETENA20=0,SETENA19=0,SETENA18=0,SETENA17=0,SETENA16=0,SETENA15=0,SETENA14=0,SETENA13=0,SETENA12=0,SETENA11=0,SETENA10=0,SETENA9=0,SETENA8=0,SETENA7=0,SETENA6=0,SETENA5=0,SETENA4=1,SETENA3=0,SETENA2=0,SETENA1=0,SETENA0=0 */
NVIC_ISER = NVIC_ISER_SETENA4_MASK;
/* NVIC_ICER: CLRENA31=0,CLRENA30=0,CLRENA29=0,CLRENA28=0,CLRENA27=0,CLRENA26=0,CLRENA25=0,CLRENA24=0,CLRENA23=0,CLRENA22=0,CLRENA21=0,CLRENA20=0,CLRENA19=0,CLRENA18=0,CLRENA17=0,CLRENA16=0,CLRENA15=0,CLRENA14=0,CLRENA13=0,CLRENA12=0,CLRENA11=0,CLRENA10=0,CLRENA9=0,CLRENA8=0,CLRENA7=0,CLRENA6=0,CLRENA5=0,CLRENA4=0,CLRENA3=0,CLRENA2=0,CLRENA1=0,CLRENA0=0 */
NVIC_ICER = 0x00U;
/* Enable clock gates */
#ifdef SIM_PDD_CLOCK_GATE_DMA
SIM_PDD_SetClockGate(SIM_BASE_PTR, SIM_PDD_CLOCK_GATE_DMA, PDD_ENABLE);
#endif
#ifdef SIM_PDD_CLOCK_GATE_DMAMUX
SIM_PDD_SetClockGate(SIM_BASE_PTR, SIM_PDD_CLOCK_GATE_DMAMUX, PDD_ENABLE);
#endif
/* Registration of the device structure */
PE_LDD_RegisterDeviceStructure(PE_LDD_COMPONENT_DMA1_ID,DevDataPtr);
/* Discard previous setting */
DMA_PDD_ClearRequestEnable(DMA_BASE_PTR, DMA_PDD_ALL_CHANNELS, 0x00U); /* Disable all request from peripheral */
DMA_PDD_ClearErrorInterruptEnable(DMA_BASE_PTR, DMA_PDD_ALL_CHANNELS, 0x00U); /* Disable all error interrupts */
DMA_PDD_CancelTransfer(DMA_BASE_PTR); /* Cancel transfer (if any in progress) */
DMA_PDD_ClearInterruptFlags(DMA_BASE_PTR, DMA_PDD_ALL_CHANNELS, 0x00U); /* Clear all channel interrupt flags */
DMA_PDD_InitChannelsPriority(DMA_BASE_PTR,DMA1_DevConst.ChnPriorities); /* Initialize channel TCD (channel registers) */
DMA_CR = 0x00U; /* initialize Control register */
return DevDataPtr;
}
/*
** ===================================================================
** Method : PE_low_level_init (component MK60DN512LQ10)
**
** Description :
** Initializes beans and provides common register initialization.
** The method is called automatically as a part of the
** application initialization code.
** This method is internal. It is used by Processor Expert only.
** ===================================================================
*/
void PE_low_level_init(void)
{
#ifdef PEX_RTOS_INIT
PEX_RTOS_INIT(); /* Initialization of the selected RTOS. Macro is defined by the RTOS component. */
#endif
/* Initialization of the SIM module */
/* PORTA_PCR4: ISF=0,MUX=7 */
PORTA_PCR4 = (uint32_t)((PORTA_PCR4 & (uint32_t)~(uint32_t)(
PORT_PCR_ISF_MASK
)) | (uint32_t)(
PORT_PCR_MUX(0x07)
));
/* Initialization of the RCM module */
/* RCM_RPFW: RSTFLTSEL=0 */
RCM_RPFW &= (uint8_t)~(uint8_t)(RCM_RPFW_RSTFLTSEL(0x1F));
/* RCM_RPFC: RSTFLTSS=0,RSTFLTSRW=0 */
RCM_RPFC &= (uint8_t)~(uint8_t)(
RCM_RPFC_RSTFLTSS_MASK |
RCM_RPFC_RSTFLTSRW(0x03)
);
/* Initialization of the FTFL_FlashConfig module */
/* SIM_SCGC7: MPU=1 */
SIM_SCGC7 |= SIM_SCGC7_MPU_MASK;
/* Initialization of the MPU module */
/* MPU_CESR: SPERR=0,VLD=0 */
MPU_CESR &= (uint32_t)~(uint32_t)((MPU_CESR_SPERR(0x1F) | MPU_CESR_VLD_MASK));
/* Initialization of the PMC module */
/* PMC_LVDSC1: LVDACK=1,LVDIE=0,LVDRE=1,LVDV=0 */
PMC_LVDSC1 = (uint8_t)((PMC_LVDSC1 & (uint8_t)~(uint8_t)(
PMC_LVDSC1_LVDIE_MASK |
PMC_LVDSC1_LVDV(0x03)
)) | (uint8_t)(
PMC_LVDSC1_LVDACK_MASK |
PMC_LVDSC1_LVDRE_MASK
));
/* PMC_LVDSC2: LVWACK=1,LVWIE=0,LVWV=0 */
PMC_LVDSC2 = (uint8_t)((PMC_LVDSC2 & (uint8_t)~(uint8_t)(
PMC_LVDSC2_LVWIE_MASK |
PMC_LVDSC2_LVWV(0x03)
)) | (uint8_t)(
PMC_LVDSC2_LVWACK_MASK
));
/* PMC_REGSC: BGEN=0,ACKISO=0,BGBE=0 */
PMC_REGSC &= (uint8_t)~(uint8_t)(
PMC_REGSC_BGEN_MASK |
PMC_REGSC_ACKISO_MASK |
PMC_REGSC_BGBE_MASK
);
/* SMC_PMPROT: ??=0,??=0,AVLP=0,??=0,ALLS=0,??=0,AVLLS=0,??=0 */
SMC_PMPROT = 0x00U; /* Setup Power mode protection register */
/* Common initialization of the CPU registers */
/* NVICIP20: PRI20=0 */
NVICIP20 = NVIC_IP_PRI20(0x00);
/* ### FreeRTOS "FRTOS1" init code ... */
#if configSYSTICK_USE_LOW_POWER_TIMER
/* enable clocking for low power timer, otherwise vPortStopTickTimer() will crash */
SIM_PDD_SetClockGate(SIM_BASE_PTR, SIM_PDD_CLOCK_GATE_LPTMR0, PDD_ENABLE);
#endif
vPortStopTickTimer(); /* tick timer shall not run until the RTOS scheduler is started */
}
void Components_Init(void)
{
/* ### KinetisSDK "KSDK1" init code ... */
/* Write code here ... */
/* ### SeggerRTT "RTT1" init code ... */
RTT1_Init();
/* ### SeggerSystemView "SYS1" init code ... */
SYS1_Init();
/* ### FreeRTOS "FRTOS1" init code ... */
#if configSYSTICK_USE_LOW_POWER_TIMER
/* enable clocking for low power timer, otherwise vPortStopTickTimer() will crash */
SIM_PDD_SetClockGate(SIM_BASE_PTR, SIM_PDD_CLOCK_GATE_LPTMR0, PDD_ENABLE);
#endif
vPortStopTickTimer(); /* tick timer shall not run until the RTOS scheduler is started */
/* ### GenericI2C "GI2C1" init code ... */
GI2C1_Init();
}
/*
** ===================================================================
** Method : PE_low_level_init (component MK22FN1M0LQ12)
**
** Description :
** Initializes beans and provides common register initialization.
** The method is called automatically as a part of the
** application initialization code.
** This method is internal. It is used by Processor Expert only.
** ===================================================================
*/
void PE_low_level_init(void)
{
#ifdef PEX_RTOS_INIT
PEX_RTOS_INIT(); /* Initialization of the selected RTOS. Macro is defined by the RTOS component. */
#endif
/* Initialization of the SIM module */
/* PORTA_PCR4: ISF=0,MUX=7 */
PORTA_PCR4 = (uint32_t)((PORTA_PCR4 & (uint32_t)~(uint32_t)(
PORT_PCR_ISF_MASK
)) | (uint32_t)(
PORT_PCR_MUX(0x07)
));
/* Initialization of the RCM module */
/* RCM_RPFW: RSTFLTSEL=0 */
RCM_RPFW &= (uint8_t)~(uint8_t)(RCM_RPFW_RSTFLTSEL(0x1F));
/* RCM_RPFC: RSTFLTSS=0,RSTFLTSRW=0 */
RCM_RPFC &= (uint8_t)~(uint8_t)(
RCM_RPFC_RSTFLTSS_MASK |
RCM_RPFC_RSTFLTSRW(0x03)
);
/* SIM_SCGC7: MPU=1 */
SIM_SCGC7 |= SIM_SCGC7_MPU_MASK;
/* Initialization of the MPU module */
/* MPU_CESR: SPERR=0,VLD=0 */
MPU_CESR &= (uint32_t)~(uint32_t)((MPU_CESR_SPERR(0x1F) | MPU_CESR_VLD_MASK));
/* Initialization of the PMC module */
/* PMC_LVDSC1: LVDACK=1,LVDIE=0,LVDRE=1,LVDV=0 */
PMC_LVDSC1 = (uint8_t)((PMC_LVDSC1 & (uint8_t)~(uint8_t)(
PMC_LVDSC1_LVDIE_MASK |
PMC_LVDSC1_LVDV(0x03)
)) | (uint8_t)(
PMC_LVDSC1_LVDACK_MASK |
PMC_LVDSC1_LVDRE_MASK
));
/* PMC_LVDSC2: LVWACK=1,LVWIE=0,LVWV=0 */
PMC_LVDSC2 = (uint8_t)((PMC_LVDSC2 & (uint8_t)~(uint8_t)(
PMC_LVDSC2_LVWIE_MASK |
PMC_LVDSC2_LVWV(0x03)
)) | (uint8_t)(
PMC_LVDSC2_LVWACK_MASK
));
/* PMC_REGSC: BGEN=0,ACKISO=0,BGBE=0 */
PMC_REGSC &= (uint8_t)~(uint8_t)(
PMC_REGSC_BGEN_MASK |
PMC_REGSC_ACKISO_MASK |
PMC_REGSC_BGBE_MASK
);
/* SMC_PMPROT: ??=0,??=0,AVLP=0,??=0,ALLS=0,??=0,AVLLS=0,??=0 */
SMC_PMPROT = 0x00U; /* Setup Power mode protection register */
/* Common initialization of the CPU registers */
/* NVICIP59: PRI59=0 */
NVICIP59 = NVIC_IP_PRI59(0x00);
/* NVICIP53: PRI53=0 */
NVICIP53 = NVIC_IP_PRI53(0x00);
/* NVICIP20: PRI20=0 */
NVICIP20 = NVIC_IP_PRI20(0x00);
/* GPIOA_PDDR: PDD&=~0x4000 */
GPIOA_PDDR &= (uint32_t)~(uint32_t)(GPIO_PDDR_PDD(0x4000));
/* PORTE_PCR26: ISF=0,MUX=7 */
PORTE_PCR26 = (uint32_t)((PORTE_PCR26 & (uint32_t)~(uint32_t)(
PORT_PCR_ISF_MASK
)) | (uint32_t)(
PORT_PCR_MUX(0x07)
));
/* ### BitIO_LDD "BitIoLdd1" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd1_Init(NULL);
/* ### LEDbit "LED1" init code ... */
LED1_Init(); /* initializes the driver */
/* ### BitIO_LDD "BitIoLdd2" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd2_Init(NULL);
/* ### LEDbit "LED2" init code ... */
LED2_Init(); /* initializes the driver */
/* ### CriticalSection "CS1" init code ... */
/* ### HardFault "HF1" init code ... */
/* Write code here ... */
/* ### TimerInt_LDD "TimerIntLdd1" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)TimerIntLdd1_Init(NULL);
/* ### TimerInt "TI1" init code ... */
/* ### Asynchro serial "AS1" init code ... */
AS1_Init();
/* ### Shell "CLS1" init code ... */
CLS1_Init(); /* initialize shell */
/* ### ExtInt_LDD "ExtIntLdd1" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)ExtIntLdd1_Init(NULL);
/* ### BitIO_LDD "BitIoLdd4" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd4_Init(NULL);
/* ### Init_GPIO "PTA" init code ... */
PTA_Init();
/* ### Asynchro serial "Serial1" init code ... */
Serial1_Init();
/* ### Bluetooth_EGBT "BT1" init code ... */
BT1_Init();
/* ### Init_USB_OTG "USB0" init code ... */
USB0_Init();
/* ### RingBuffer "Tx1" init code ... */
Tx1_Init();
/* ### RingBuffer "Rx1" init code ... */
Rx1_Init();
(void)USB1_Init();
/* ### FreeRTOS "FRTOS1" init code ... */
#if configSYSTICK_USE_LOW_POWER_TIMER
/* enable clocking for low power timer, otherwise vPortStopTickTimer() will crash */
SIM_PDD_SetClockGate(SIM_BASE_PTR, SIM_PDD_CLOCK_GATE_LPTMR0, PDD_ENABLE);
#endif
vPortStopTickTimer(); /* tick timer shall not run until the RTOS scheduler is started */
}
/*
** ===================================================================
** Method : PE_low_level_init (component MK22FN1M0LH12)
**
** Description :
** Initializes beans and provides common register initialization.
** The method is called automatically as a part of the
** application initialization code.
** This method is internal. It is used by Processor Expert only.
** ===================================================================
*/
void PE_low_level_init(void)
{
#ifdef PEX_RTOS_INIT
PEX_RTOS_INIT(); /* Initialization of the selected RTOS. Macro is defined by the RTOS component. */
#endif
/* Initialization of the SIM module */
/* PORTA_PCR4: ISF=0,MUX=7 */
PORTA_PCR4 = (uint32_t)((PORTA_PCR4 & (uint32_t)~(uint32_t)(
PORT_PCR_ISF_MASK
)) | (uint32_t)(
PORT_PCR_MUX(0x07)
));
/* Initialization of the RCM module */
/* RCM_RPFW: RSTFLTSEL=0 */
RCM_RPFW &= (uint8_t)~(uint8_t)(RCM_RPFW_RSTFLTSEL(0x1F));
/* RCM_RPFC: RSTFLTSS=0,RSTFLTSRW=0 */
RCM_RPFC &= (uint8_t)~(uint8_t)(
RCM_RPFC_RSTFLTSS_MASK |
RCM_RPFC_RSTFLTSRW(0x03)
);
/* SIM_SCGC7: MPU=1 */
SIM_SCGC7 |= SIM_SCGC7_MPU_MASK;
/* Initialization of the MPU module */
/* MPU_CESR: SPERR=0,VLD=0 */
MPU_CESR &= (uint32_t)~(uint32_t)((MPU_CESR_SPERR(0x1F) | MPU_CESR_VLD_MASK));
/* Initialization of the PMC module */
/* PMC_LVDSC1: LVDACK=1,LVDIE=0,LVDRE=1,LVDV=0 */
PMC_LVDSC1 = (uint8_t)((PMC_LVDSC1 & (uint8_t)~(uint8_t)(
PMC_LVDSC1_LVDIE_MASK |
PMC_LVDSC1_LVDV(0x03)
)) | (uint8_t)(
PMC_LVDSC1_LVDACK_MASK |
PMC_LVDSC1_LVDRE_MASK
));
/* PMC_LVDSC2: LVWACK=1,LVWIE=0,LVWV=0 */
PMC_LVDSC2 = (uint8_t)((PMC_LVDSC2 & (uint8_t)~(uint8_t)(
PMC_LVDSC2_LVWIE_MASK |
PMC_LVDSC2_LVWV(0x03)
)) | (uint8_t)(
PMC_LVDSC2_LVWACK_MASK
));
/* PMC_REGSC: BGEN=0,ACKISO=0,BGBE=0 */
PMC_REGSC &= (uint8_t)~(uint8_t)(
PMC_REGSC_BGEN_MASK |
PMC_REGSC_ACKISO_MASK |
PMC_REGSC_BGBE_MASK
);
/* SMC_PMPROT: ??=0,??=0,AVLP=0,??=0,ALLS=0,??=0,AVLLS=0,??=0 */
SMC_PMPROT = 0x00U; /* Setup Power mode protection register */
/* Common initialization of the CPU registers */
/* NVICIP42: PRI42=0x80 */
NVICIP42 = NVIC_IP_PRI42(0x80);
/* NVICIP53: PRI53=0 */
NVICIP53 = NVIC_IP_PRI53(0x00);
/* NVICIP20: PRI20=0 */
NVICIP20 = NVIC_IP_PRI20(0x00);
/* NVICISER1: SETENA|=0x0400 */
NVICISER1 |= NVIC_ISER_SETENA(0x0400);
/* GPIOC_PDDR: PDD&=~0x0104 */
GPIOC_PDDR &= (uint32_t)~(uint32_t)(GPIO_PDDR_PDD(0x0104));
/* ### BitIO_LDD "BitIoLdd1" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd1_Init(NULL);
/* ### BitIO_LDD "BitIoLdd2" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd2_Init(NULL);
/* ### Init_FTM "FTM0" init code ... */
FTM0_Init();
/* ### SynchroMaster "SM1" init code ... */
SM1_Init();
/* ### BitIO_LDD "BitIoLdd4" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd4_Init(NULL);
/* ### BitIO_LDD "BitIoLdd5" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd5_Init(NULL);
/* ### ExtInt_LDD "ExtIntLdd1" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)ExtIntLdd1_Init(NULL);
/* ### nRF24L01 "RF24" init code ... */
/* ### CriticalSection "CS1" init code ... */
/* ### Asynchro serial "AS1" init code ... */
AS1_Init();
/* ### KinetisSDK "KSDK1" init code ... */
/* Write code here ... */
/* ### Shell "mainShell" init code ... */
mainShell_Init(); /* initialize shell */
/* ### FreeRTOS "FRTOS1" init code ... */
#if configSYSTICK_USE_LOW_POWER_TIMER
/* enable clocking for low power timer, otherwise vPortStopTickTimer() will crash */
SIM_PDD_SetClockGate(SIM_BASE_PTR, SIM_PDD_CLOCK_GATE_LPTMR0, PDD_ENABLE);
#endif
vPortStopTickTimer(); /* tick timer shall not run until the RTOS scheduler is started */
/* ### FreeRTOS_Tasks "rtTasks" init code ... */
rtTasks_CreateTasks();
/* ### BitIO_LDD "BitIoLdd6" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd6_Init(NULL);
/* ### BitIO_LDD "BitIoLdd7" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd7_Init(NULL);
/* ### BitIO_LDD "BitIoLdd8" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd8_Init(NULL);
/* ### GenericSWSPI "RFIDspi" init code ... */
RFIDspi_Init();
/* ### BitIO_LDD "BitIoLdd9" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd9_Init(NULL);
/* ### ExtInt_LDD "ExtIntLdd2" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)ExtIntLdd2_Init(NULL);
/* ### BitIO_LDD "BitIoLdd10" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd10_Init(NULL);
/* ### BitIO_LDD "BitIoLdd11" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd11_Init(NULL);
/* ### LEDbit "LED1" init code ... */
LED1_Init(); /* initializes the driver */
/* ### BitIO_LDD "BitIoLdd3" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd3_Init(NULL);
/* ### LEDbit "LED2" init code ... */
LED2_Init(); /* initializes the driver */
/* ### BitIO_LDD "BitIoLdd12" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd12_Init(NULL);
/* ### LEDbit "LED3" init code ... */
LED3_Init(); /* initializes the driver */
/* ### Init_USB_OTG "USB0" init code ... */
USB0_Init();
/* ### RingBuffer "Tx1" init code ... */
Tx1_Init();
/* ### RingBuffer "Rx1" init code ... */
Rx1_Init();
(void)USB1_Init();
}
/*
** ===================================================================
** Method : PE_low_level_init (component MKL25Z128LK4)
**
** Description :
** Initializes beans and provides common register initialization.
** The method is called automatically as a part of the
** application initialization code.
** This method is internal. It is used by Processor Expert only.
** ===================================================================
*/
void PE_low_level_init(void)
{
#ifdef PEX_RTOS_INIT
PEX_RTOS_INIT(); /* Initialization of the selected RTOS. Macro is defined by the RTOS component. */
#endif
/* Initialization of the SIM module */
/* PORTA_PCR4: ISF=0,MUX=7 */
PORTA_PCR4 = (uint32_t)((PORTA_PCR4 & (uint32_t)~(uint32_t)(
PORT_PCR_ISF_MASK
)) | (uint32_t)(
PORT_PCR_MUX(0x07)
));
/* Initialization of the RCM module */
/* RCM_RPFW: RSTFLTSEL=0 */
RCM_RPFW &= (uint8_t)~(uint8_t)(RCM_RPFW_RSTFLTSEL(0x1F));
/* RCM_RPFC: RSTFLTSS=0,RSTFLTSRW=0 */
RCM_RPFC &= (uint8_t)~(uint8_t)(
RCM_RPFC_RSTFLTSS_MASK |
RCM_RPFC_RSTFLTSRW(0x03)
);
/* Initialization of the FTFL_FlashConfig module */
/* Initialization of the PMC module */
/* PMC_LVDSC1: LVDACK=1,LVDIE=0,LVDRE=1,LVDV=0 */
PMC_LVDSC1 = (uint8_t)((PMC_LVDSC1 & (uint8_t)~(uint8_t)(
PMC_LVDSC1_LVDIE_MASK |
PMC_LVDSC1_LVDV(0x03)
)) | (uint8_t)(
PMC_LVDSC1_LVDACK_MASK |
PMC_LVDSC1_LVDRE_MASK
));
/* PMC_LVDSC2: LVWACK=1,LVWIE=0,LVWV=0 */
PMC_LVDSC2 = (uint8_t)((PMC_LVDSC2 & (uint8_t)~(uint8_t)(
PMC_LVDSC2_LVWIE_MASK |
PMC_LVDSC2_LVWV(0x03)
)) | (uint8_t)(
PMC_LVDSC2_LVWACK_MASK
));
/* PMC_REGSC: BGEN=0,ACKISO=0,BGBE=0 */
PMC_REGSC &= (uint8_t)~(uint8_t)(
PMC_REGSC_BGEN_MASK |
PMC_REGSC_ACKISO_MASK |
PMC_REGSC_BGBE_MASK
);
/* SMC_PMPROT: ??=0,??=0,AVLP=0,??=0,ALLS=0,??=0,AVLLS=0,??=0 */
SMC_PMPROT = 0x00U; /* Setup Power mode protection register */
/* Common initialization of the CPU registers */
/* PORTA_PCR20: ISF=0,MUX=7 */
PORTA_PCR20 = (uint32_t)((PORTA_PCR20 & (uint32_t)~(uint32_t)(
PORT_PCR_ISF_MASK
)) | (uint32_t)(
PORT_PCR_MUX(0x07)
));
/* NVIC_IPR1: PRI_6=0 */
NVIC_IPR1 &= (uint32_t)~(uint32_t)(NVIC_IP_PRI_6(0xFF));
/* SCB_SHPR2: PRI_11=0 */
SCB_SHPR2 &= (uint32_t)~(uint32_t)(SCB_SHPR2_PRI_11(0xFF));
/* SCB_SHPR3: PRI_14=0 */
SCB_SHPR3 &= (uint32_t)~(uint32_t)(SCB_SHPR3_PRI_14(0xFF));
/* ### FreeRTOS "FRTOS1" init code ... */
#if configSYSTICK_USE_LOW_POWER_TIMER
/* enable clocking for low power timer, otherwise vPortStopTickTimer() will crash */
SIM_PDD_SetClockGate(SIM_BASE_PTR, SIM_PDD_CLOCK_GATE_LPTMR0, PDD_ENABLE);
#endif
vPortStopTickTimer(); /* tick timer shall not run until the RTOS scheduler is started */
/* ### BitIO_LDD "BitIoLdd1" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd1_Init(NULL);
/* ### LED "LEDR" init code ... */
LEDR_Init(); /* initializes the driver */
/* ### BitIO_LDD "BitIoLdd2" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd2_Init(NULL);
/* ### LED "LEDB" init code ... */
LEDB_Init(); /* initializes the driver */
}
/*
** ===================================================================
** Method : PE_low_level_init (component MK70FN1M0MJ15)
**
** Description :
** Initializes beans and provides common register initialization.
** The method is called automatically as a part of the
** application initialization code.
** This method is internal. It is used by Processor Expert only.
** ===================================================================
*/
void PE_low_level_init(void)
{
#ifdef PEX_RTOS_INIT
PEX_RTOS_INIT(); /* Initialization of the selected RTOS. Macro is defined by the RTOS component. */
#endif
/* Initialization of the SIM module */
/* SIM_SOPT2: CMTUARTPAD=0 */
SIM_SOPT2 &= (uint32_t)~(uint32_t)(SIM_SOPT2_CMTUARTPAD_MASK);
/* PORTA_PCR4: ISF=0,MUX=7 */
PORTA_PCR4 = (uint32_t)((PORTA_PCR4 & (uint32_t)~(uint32_t)(
PORT_PCR_ISF_MASK
)) | (uint32_t)(
PORT_PCR_MUX(0x07)
));
/* Initialization of the RCM module */
/* RCM_RPFW: RSTFLTSEL=0 */
RCM_RPFW &= (uint8_t)~(uint8_t)(RCM_RPFW_RSTFLTSEL(0x1F));
/* RCM_RPFC: RSTFLTSS=0,RSTFLTSRW=0 */
RCM_RPFC &= (uint8_t)~(uint8_t)(
RCM_RPFC_RSTFLTSS_MASK |
RCM_RPFC_RSTFLTSRW(0x03)
);
/* Initialization of the FTFL_FlashConfig module */
/* SIM_SCGC7: MPU=1 */
SIM_SCGC7 |= SIM_SCGC7_MPU_MASK;
/* Initialization of the MPU module */
/* MPU_CESR: SPERR=0,VLD=0 */
MPU_CESR &= (uint32_t)~(uint32_t)((MPU_CESR_SPERR(0xFF) | MPU_CESR_VLD_MASK));
/* Initialization of the PMC module */
/* PMC_REGSC: ACKISO=0,BGBE=0 */
PMC_REGSC &= (uint8_t)~(uint8_t)(
PMC_REGSC_ACKISO_MASK |
PMC_REGSC_BGBE_MASK
);
/* PMC_LVDSC1: LVDACK=1,LVDIE=0,LVDRE=1,LVDV=0 */
PMC_LVDSC1 = (uint8_t)((PMC_LVDSC1 & (uint8_t)~(uint8_t)(
PMC_LVDSC1_LVDIE_MASK |
PMC_LVDSC1_LVDV(0x03)
)) | (uint8_t)(
PMC_LVDSC1_LVDACK_MASK |
PMC_LVDSC1_LVDRE_MASK
));
/* PMC_LVDSC2: LVWACK=1,LVWIE=0,LVWV=0 */
PMC_LVDSC2 = (uint8_t)((PMC_LVDSC2 & (uint8_t)~(uint8_t)(
PMC_LVDSC2_LVWIE_MASK |
PMC_LVDSC2_LVWV(0x03)
)) | (uint8_t)(
PMC_LVDSC2_LVWACK_MASK
));
/* SMC_PMPROT: ??=0,??=0,AVLP=0,??=0,ALLS=0,??=0,AVLLS=0,??=0 */
SMC_PMPROT = 0x00U; /* Setup Power mode protection register */
/* Common initialization of the CPU registers */
/* NVICIP20: PRI20=0 */
NVICIP20 = NVIC_IP_PRI20(0x00);
/* GPIOE_PDDR: PDD&=~0x04000000 */
GPIOE_PDDR &= (uint32_t)~(uint32_t)(GPIO_PDDR_PDD(0x04000000));
/* ### FreeRTOS "FRTOS1" init code ... */
#if configSYSTICK_USE_LOW_POWER_TIMER
/* enable clocking for low power timer, otherwise vPortStopTickTimer() will crash */
SIM_PDD_SetClockGate(SIM_BASE_PTR, SIM_PDD_CLOCK_GATE_LPTMR0, PDD_ENABLE);
#endif
vPortStopTickTimer(); /* tick timer shall not run until the RTOS scheduler is started */
/* ### BitIO_LDD "BitIoLdd1" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd1_Init(NULL);
/* ### LED "LED_E1" init code ... */
LED_E1_Init(); /* initialize LED driver */
/* ### BitIO_LDD "BitIoLdd2" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd2_Init(NULL);
/* ### LED "LED_E2" init code ... */
LED_E2_Init(); /* initialize LED driver */
/* ### BitIO_LDD "BitIoLdd3" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd3_Init(NULL);
/* ### LED "LED_E3" init code ... */
LED_E3_Init(); /* initialize LED driver */
/* ### BitIO_LDD "BitIoLdd4" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)BitIoLdd4_Init(NULL);
/* ### LED "LED_E4" init code ... */
LED_E4_Init(); /* initialize LED driver */
/* ### ExtInt_LDD "EInt1" component auto initialization. Auto initialization feature can be disabled by component property "Auto initialization". */
(void)EInt1_Init(NULL);
}
