Exemplo n.º 1
0
/* ===================================================================*/
LDD_TDeviceData* AS1_Init(LDD_TUserData *UserDataPtr)
{
  /* Allocate device structure */
  AS1_TDeviceDataPtr DeviceDataPrv;
  /* {Default RTOS Adapter} Driver memory allocation: Dynamic allocation is simulated by a pointer to the static object */
  DeviceDataPrv = &DeviceDataPrv__DEFAULT_RTOS_ALLOC;

  /* Clear the receive counters and pointer */
  DeviceDataPrv->InpRecvDataNum = 0x00U; /* Clear the counter of received characters */
  DeviceDataPrv->InpDataNumReq = 0x00U; /* Clear the counter of characters to receive by ReceiveBlock() */
  DeviceDataPrv->InpDataPtr = NULL;    /* Clear the buffer pointer for received characters */
  /* Clear the transmit counters and pointer */
  DeviceDataPrv->OutSentDataNum = 0x00U; /* Clear the counter of sent characters */
  DeviceDataPrv->OutDataNumReq = 0x00U; /* Clear the counter of characters to be send by SendBlock() */
  DeviceDataPrv->OutDataPtr = NULL;    /* Clear the buffer pointer for data to be transmitted */
  DeviceDataPrv->UserDataPtr = UserDataPtr; /* Store the RTOS device structure */
  /* Allocate interrupt vectors */
  /* {Default RTOS Adapter} Set interrupt vector: IVT is static, ISR parameter is passed by the global variable */
  INT_UART1__DEFAULT_RTOS_ISRPARAM = DeviceDataPrv;
  /* SIM_SCGC4: UART1=1 */
  SIM_SCGC4 |= SIM_SCGC4_UART1_MASK;
  /* PORTE_PCR1: ISF=0,MUX=3 */
  PORTE_PCR1 = (uint32_t)((PORTE_PCR1 & (uint32_t)~(uint32_t)(
                PORT_PCR_ISF_MASK |
                PORT_PCR_MUX(0x04)
               )) | (uint32_t)(
                PORT_PCR_MUX(0x03)
               ));
  /* PORTE_PCR0: ISF=0,MUX=3 */
  PORTE_PCR0 = (uint32_t)((PORTE_PCR0 & (uint32_t)~(uint32_t)(
                PORT_PCR_ISF_MASK |
                PORT_PCR_MUX(0x04)
               )) | (uint32_t)(
                PORT_PCR_MUX(0x03)
               ));
  /* NVIC_IPR3: PRI_13=0x80 */
  NVIC_IPR3 = (uint32_t)((NVIC_IPR3 & (uint32_t)~(uint32_t)(
               NVIC_IP_PRI_13(0x7F)
              )) | (uint32_t)(
               NVIC_IP_PRI_13(0x80)
              ));
  /* NVIC_ISER: SETENA|=0x2000 */
  NVIC_ISER |= NVIC_ISER_SETENA(0x2000);
  UART_PDD_EnableTransmitter(UART1_BASE_PTR, PDD_DISABLE); /* Disable transmitter. */
  UART_PDD_EnableReceiver(UART1_BASE_PTR, PDD_DISABLE); /* Disable receiver. */
  DeviceDataPrv->SerFlag = 0x00U;      /* Reset flags */
  /* UART1_C1: LOOPS=0,UARTSWAI=0,RSRC=0,M=0,WAKE=0,ILT=0,PE=0,PT=0 */
  UART1_C1 = 0x00U;                    /*  Set the C1 register */
  /* UART1_C3: R8=0,T8=0,TXDIR=0,TXINV=0,ORIE=0,NEIE=0,FEIE=0,PEIE=0 */
  UART1_C3 = 0x00U;                    /*  Set the C3 register */
  /* UART1_S2: LBKDIF=0,RXEDGIF=0,??=0,RXINV=0,RWUID=0,BRK13=0,LBKDE=0,RAF=0 */
  UART1_S2 = 0x00U;                    /*  Set the S2 register */
  UART_PDD_SetBaudRate(UART1_BASE_PTR, 137U); /* Set the baud rate register. */
  UART_PDD_EnableTransmitter(UART1_BASE_PTR, PDD_ENABLE); /* Enable transmitter */
  UART_PDD_EnableReceiver(UART1_BASE_PTR, PDD_ENABLE); /* Enable receiver */
  UART_PDD_EnableInterrupt(UART1_BASE_PTR, ( UART_PDD_INTERRUPT_RECEIVER )); /* Enable interrupts */
  /* Registration of the device structure */
  PE_LDD_RegisterDeviceStructure(PE_LDD_COMPONENT_AS1_ID,DeviceDataPrv);
  return ((LDD_TDeviceData *)DeviceDataPrv);
}
Exemplo n.º 2
0
/* ===================================================================*/
LDD_TDeviceData* ASerialLdd2_Init(LDD_TUserData *UserDataPtr)
{
  /* Allocate device structure */
  ASerialLdd2_TDeviceDataPtr DeviceDataPrv;
  /* {Default RTOS Adapter} Driver memory allocation: Dynamic allocation is simulated by a pointer to the static object */
  DeviceDataPrv = &DeviceDataPrv__DEFAULT_RTOS_ALLOC;

  /* Clear the receive counters and pointer */
  DeviceDataPrv->InpRecvDataNum = 0x00U; /* Clear the counter of received characters */
  DeviceDataPrv->InpDataNumReq = 0x00U; /* Clear the counter of characters to receive by ReceiveBlock() */
  DeviceDataPrv->InpDataPtr = NULL;    /* Clear the buffer pointer for received characters */
  /* Clear the transmit counters and pointer */
  DeviceDataPrv->OutSentDataNum = 0x00U; /* Clear the counter of sent characters */
  DeviceDataPrv->OutDataNumReq = 0x00U; /* Clear the counter of characters to be send by SendBlock() */
  DeviceDataPrv->OutDataPtr = NULL;    /* Clear the buffer pointer for data to be transmitted */
  DeviceDataPrv->UserDataPtr = UserDataPtr; /* Store the RTOS device structure */
  /* SIM_SCGC4: UART0=1 */
  SIM_SCGC4 |= SIM_SCGC4_UART0_MASK;
  /* PORTB_PCR16: ISF=0,MUX=3 */
  PORTB_PCR16 = (uint32_t)((PORTB_PCR16 & (uint32_t)~(uint32_t)(
                 PORT_PCR_ISF_MASK |
                 PORT_PCR_MUX(0x04)
                )) | (uint32_t)(
                 PORT_PCR_MUX(0x03)
                ));
  /* PORTB_PCR17: ISF=0,MUX=3 */
  PORTB_PCR17 = (uint32_t)((PORTB_PCR17 & (uint32_t)~(uint32_t)(
                 PORT_PCR_ISF_MASK |
                 PORT_PCR_MUX(0x04)
                )) | (uint32_t)(
                 PORT_PCR_MUX(0x03)
                ));
  UART_PDD_EnableTransmitter(UART0_BASE_PTR, PDD_DISABLE); /* Disable transmitter. */
  UART_PDD_EnableReceiver(UART0_BASE_PTR, PDD_DISABLE); /* Disable receiver. */
  DeviceDataPrv->SerFlag = 0x00U;      /* Reset flags */
  DeviceDataPrv->ErrFlag = 0x00U;      /* Reset error flags */
  /* UART0_C1: LOOPS=0,UARTSWAI=0,RSRC=0,M=0,WAKE=0,ILT=0,PE=0,PT=0 */
  UART0_C1 = 0x00U;                    /*  Set the C1 register */
  /* UART0_C3: R8=0,T8=0,TXDIR=0,TXINV=0,ORIE=0,NEIE=0,FEIE=0,PEIE=0 */
  UART0_C3 = 0x00U;                    /*  Set the C3 register */
  /* UART0_C4: MAEN1=0,MAEN2=0,M10=0,BRFA=0 */
  UART0_C4 = UART_C4_BRFA(0x00);       /*  Set the C4 register */
  /* UART0_S2: LBKDIF=0,RXEDGIF=0,MSBF=0,RXINV=0,RWUID=0,BRK13=0,LBKDE=0,RAF=0 */
  UART0_S2 = 0x00U;                    /*  Set the S2 register */
  /* UART0_MODEM: ??=0,??=0,??=0,??=0,RXRTSE=0,TXRTSPOL=0,TXRTSE=0,TXCTSE=0 */
  UART0_MODEM = 0x00U;                 /*  Set the MODEM register */
  UART_PDD_SetBaudRateFineAdjust(UART0_BASE_PTR, 18u); /* Set baud rate fine adjust */
  UART_PDD_SetBaudRate(UART0_BASE_PTR, 13U); /* Set the baud rate register. */
  UART_PDD_EnableFifo(UART0_BASE_PTR, (UART_PDD_TX_FIFO_ENABLE | UART_PDD_RX_FIFO_ENABLE)); /* Enable RX and TX FIFO */
  UART_PDD_FlushFifo(UART0_BASE_PTR, (UART_PDD_TX_FIFO_FLUSH | UART_PDD_RX_FIFO_FLUSH)); /* Flush RX and TX FIFO */
  UART_PDD_EnableTransmitter(UART0_BASE_PTR, PDD_ENABLE); /* Enable transmitter */
  UART_PDD_EnableReceiver(UART0_BASE_PTR, PDD_ENABLE); /* Enable receiver */
  /* Registration of the device structure */
  PE_LDD_RegisterDeviceStructure(PE_LDD_COMPONENT_ASerialLdd2_ID,DeviceDataPrv);
  return ((LDD_TDeviceData *)DeviceDataPrv);
}
Exemplo n.º 3
0
/* ===================================================================*/
LDD_TDeviceData* MB_UART_Init(LDD_TUserData *UserDataPtr)
{
  /* Allocate device structure */
  MB_UART_TDeviceDataPtr DeviceDataPrv;
  /* {MQXLite RTOS Adapter} Driver memory allocation: Dynamic allocation is simulated by a pointer to the static object */
  DeviceDataPrv = &DeviceDataPrv__DEFAULT_RTOS_ALLOC;

  /* Clear the receive counters and pointer */
  DeviceDataPrv->InpRecvDataNum = 0x00U; /* Clear the counter of received characters */
  DeviceDataPrv->InpDataNumReq = 0x00U; /* Clear the counter of characters to receive by ReceiveBlock() */
  DeviceDataPrv->InpDataPtr = NULL;    /* Clear the buffer pointer for received characters */
  /* Clear the transmit counters and pointer */
  DeviceDataPrv->OutSentDataNum = 0x00U; /* Clear the counter of sent characters */
  DeviceDataPrv->OutDataNumReq = 0x00U; /* Clear the counter of characters to be send by SendBlock() */
  DeviceDataPrv->OutDataPtr = NULL;    /* Clear the buffer pointer for data to be transmitted */
  DeviceDataPrv->UserDataPtr = UserDataPtr; /* Store the RTOS device structure */
  /* Allocate interrupt vectors */
  /* {MQXLite RTOS Adapter} Save old and set new interrupt vector (function handler and ISR parameter) */
  /* Note: Exception handler for interrupt is not saved, because it is not modified */
  DeviceDataPrv->SavedISRSettings.isrData = _int_get_isr_data(LDD_ivIndex_INT_UART2);
  DeviceDataPrv->SavedISRSettings.isrFunction = _int_install_isr(LDD_ivIndex_INT_UART2, MB_UART_Interrupt, DeviceDataPrv);
  /* SIM_SCGC: UART2=1 */
  SIM_SCGC |= SIM_SCGC_UART2_MASK;
  /* SIM_PINSEL1: UART2PS=0 */
  SIM_PINSEL1 &= (uint32_t)~(uint32_t)(SIM_PINSEL1_UART2PS_MASK);
  /* NVIC_IPR3: PRI_14=1 */
  NVIC_IPR3 = (uint32_t)((NVIC_IPR3 & (uint32_t)~(uint32_t)(
               NVIC_IP_PRI_14(0x02)
              )) | (uint32_t)(
               NVIC_IP_PRI_14(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=1,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=0 */
  NVIC_ISER = NVIC_ISER_SETENA14_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;
  UART_PDD_EnableTransmitter(UART2_BASE_PTR, PDD_DISABLE); /* Disable transmitter. */
  UART_PDD_EnableReceiver(UART2_BASE_PTR, PDD_DISABLE); /* Disable receiver. */
  DeviceDataPrv->SerFlag = 0x00U;      /* Reset flags */
  /* UART2_C1: LOOPS=0,UARTSWAI=0,RSRC=0,M=0,WAKE=0,ILT=0,PE=0,PT=0 */
  UART2_C1 = 0x00U;                    /*  Set the C1 register */
  /* UART2_C3: R8=0,T8=0,TXDIR=0,TXINV=0,ORIE=0,NEIE=0,FEIE=0,PEIE=0 */
  UART2_C3 = 0x00U;                    /*  Set the C3 register */
  /* UART2_S2: LBKDIF=0,RXEDGIF=0,??=0,RXINV=0,RWUID=0,BRK13=0,LBKDE=0,RAF=0 */
  UART2_S2 = 0x00U;                    /*  Set the S2 register */
  UART_PDD_SetBaudRate(UART2_BASE_PTR, 52U); /* Set the baud rate register. */
  UART_PDD_EnableTransmitter(UART2_BASE_PTR, PDD_ENABLE); /* Enable transmitter */
  UART_PDD_EnableReceiver(UART2_BASE_PTR, PDD_ENABLE); /* Enable receiver */
  UART_PDD_EnableInterrupt(UART2_BASE_PTR, ( UART_PDD_INTERRUPT_RECEIVER )); /* Enable interrupts */
  /* Registration of the device structure */
  PE_LDD_RegisterDeviceStructure(PE_LDD_COMPONENT_MB_UART_ID,DeviceDataPrv);
  return ((LDD_TDeviceData *)DeviceDataPrv);
}
Exemplo n.º 4
0
/* ===================================================================*/
LDD_TDeviceData* ASerialLdd1_Init(LDD_TUserData *UserDataPtr)
{
  /* Allocate device structure */
  ASerialLdd1_TDeviceDataPtr DeviceDataPrv;
  /* {Default RTOS Adapter} Driver memory allocation: Dynamic allocation is simulated by a pointer to the static object */
  DeviceDataPrv = &DeviceDataPrv__DEFAULT_RTOS_ALLOC;

  /* Clear the receive counters and pointer */
  DeviceDataPrv->InpRecvDataNum = 0x00U; /* Clear the counter of received characters */
  DeviceDataPrv->InpDataNumReq = 0x00U; /* Clear the counter of characters to receive by ReceiveBlock() */
  DeviceDataPrv->InpDataPtr = NULL;    /* Clear the buffer pointer for received characters */
  /* Clear the transmit counters and pointer */
  DeviceDataPrv->OutSentDataNum = 0x00U; /* Clear the counter of sent characters */
  DeviceDataPrv->OutDataNumReq = 0x00U; /* Clear the counter of characters to be send by SendBlock() */
  DeviceDataPrv->OutDataPtr = NULL;    /* Clear the buffer pointer for data to be transmitted */
  DeviceDataPrv->UserDataPtr = UserDataPtr; /* Store the RTOS device structure */
  /* Allocate interrupt vectors */
  /* {Default RTOS Adapter} Set interrupt vector: IVT is static, ISR parameter is passed by the global variable */
  INT_UART2__DEFAULT_RTOS_ISRPARAM = DeviceDataPrv;
  /* SIM_SCGC: UART2=1 */
  SIM_SCGC |= SIM_SCGC_UART2_MASK;
  /* SIM_PINSEL1: UART2PS=1 */
  SIM_PINSEL1 |= SIM_PINSEL1_UART2PS_MASK;
  /* NVIC_IPR3: PRI_14=1 */
  NVIC_IPR3 = (uint32_t)((NVIC_IPR3 & (uint32_t)~(uint32_t)(
               NVIC_IP_PRI_14(0x02)
              )) | (uint32_t)(
               NVIC_IP_PRI_14(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=1,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=0 */
  NVIC_ISER = NVIC_ISER_SETENA14_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;
  UART_PDD_EnableTransmitter(UART2_BASE_PTR, PDD_DISABLE); /* Disable transmitter. */
  UART_PDD_EnableReceiver(UART2_BASE_PTR, PDD_DISABLE); /* Disable receiver. */
  DeviceDataPrv->SerFlag = 0x00U;      /* Reset flags */
  DeviceDataPrv->ErrFlag = 0x00U;      /* Reset error flags */
  /* UART2_C1: LOOPS=0,UARTSWAI=0,RSRC=0,M=0,WAKE=0,ILT=0,PE=0,PT=0 */
  UART2_C1 = 0x00U;                    /*  Set the C1 register */
  /* UART2_C3: R8=0,T8=0,TXDIR=0,TXINV=0,ORIE=0,NEIE=0,FEIE=0,PEIE=0 */
  UART2_C3 = 0x00U;                    /*  Set the C3 register */
  /* UART2_S2: LBKDIF=0,RXEDGIF=0,??=0,RXINV=0,RWUID=0,BRK13=0,LBKDE=0,RAF=0 */
  UART2_S2 = 0x00U;                    /*  Set the S2 register */
  UART_PDD_SetBaudRate(UART2_BASE_PTR, 13U); /* Set the baud rate register. */
  UART_PDD_EnableTransmitter(UART2_BASE_PTR, PDD_ENABLE); /* Enable transmitter */
  UART_PDD_EnableReceiver(UART2_BASE_PTR, PDD_ENABLE); /* Enable receiver */
  UART_PDD_EnableInterrupt(UART2_BASE_PTR, ( UART_PDD_INTERRUPT_RECEIVER | UART_PDD_INTERRUPT_PARITY_ERROR | UART_PDD_INTERRUPT_FRAMING_ERROR | UART_PDD_INTERRUPT_NOISE_ERROR | UART_PDD_INTERRUPT_OVERRUN_ERROR )); /* Enable interrupts */
  /* Registration of the device structure */
  PE_LDD_RegisterDeviceStructure(PE_LDD_COMPONENT_ASerialLdd1_ID,DeviceDataPrv);
  return ((LDD_TDeviceData *)DeviceDataPrv);
}
Exemplo n.º 5
0
/*
** ===================================================================
**     Method      :  HWEnDi (component Serial_LDD)
**
**     Description :
**         Enables or disables the peripheral(s) associated with the 
**         component. The method is called automatically as a part of the 
**         Enable and Disable methods and several internal methods.
**         This method is internal. It is used by Processor Expert only.
** ===================================================================
*/
static void HWEnDi(LDD_TDeviceData *DeviceDataPtr)
{
  UART_SDA_TDeviceDataPtr DeviceDataPrv = (UART_SDA_TDeviceDataPtr)DeviceDataPtr;

  if (DeviceDataPrv->EnMode) {         /* Enable device? */
    UART_PDD_EnableFifo(UART0_BASE_PTR, (UART_PDD_TX_FIFO_ENABLE | UART_PDD_RX_FIFO_ENABLE)); /* Enable RX and TX FIFO */
    UART_PDD_FlushFifo(UART0_BASE_PTR, (UART_PDD_TX_FIFO_FLUSH | UART_PDD_RX_FIFO_FLUSH)); /* Flush RX and TX FIFO */
    UART_PDD_EnableTransmitter(UART0_BASE_PTR, PDD_ENABLE); /* Enable transmitter */
    UART_PDD_EnableReceiver(UART0_BASE_PTR, PDD_ENABLE); /* Enable receiver */
    UART_PDD_EnableInterrupt(UART0_BASE_PTR, ( UART_PDD_INTERRUPT_RECEIVER )); /* Enable interrupts */
  } else {
    UART_PDD_DisableInterrupt(UART0_BASE_PTR, ( UART_PDD_INTERRUPT_RECEIVER | UART_PDD_INTERRUPT_TRANSMITTER )); /* Disable interrupts */
    UART_PDD_EnableTransmitter(UART0_BASE_PTR, PDD_DISABLE); /* Disable transmitter. */
    UART_PDD_EnableReceiver(UART0_BASE_PTR, PDD_DISABLE); /* Disable receiver. */
  }
}
Exemplo n.º 6
0
/* ===================================================================*/
LDD_TDeviceData* IO1_Init(LDD_TUserData *UserDataPtr)
{
  /* Allocate device structure */
  IO1_TDeviceDataPtr DeviceDataPrv;
  /* {MQXLite RTOS Adapter} Driver memory allocation: Dynamic allocation is simulated by a pointer to the static object */
  DeviceDataPrv = &DeviceDataPrv__DEFAULT_RTOS_ALLOC;

  /* Clear the receive counters and pointer */
  DeviceDataPrv->InpRecvDataNum = 0x00U; /* Clear the counter of received characters */
  DeviceDataPrv->InpDataNumReq = 0x00U; /* Clear the counter of characters to receive by ReceiveBlock() */
  DeviceDataPrv->InpDataPtr = NULL;    /* Clear the buffer pointer for received characters */
  /* Clear the transmit counters and pointer */
  DeviceDataPrv->OutSentDataNum = 0x00U; /* Clear the counter of sent characters */
  DeviceDataPrv->OutDataNumReq = 0x00U; /* Clear the counter of characters to be send by SendBlock() */
  DeviceDataPrv->OutDataPtr = NULL;    /* Clear the buffer pointer for data to be transmitted */
  DeviceDataPrv->UserDataPtr = UserDataPtr; /* Store the RTOS device structure */
  /* SIM_SCGC: UART1=1 */
  SIM_SCGC |= SIM_SCGC_UART1_MASK;
  /* SIM_PINSEL1: UART1PS=0 */
  SIM_PINSEL1 &= (uint32_t)~(uint32_t)(SIM_PINSEL1_UART1PS_MASK);
  UART_PDD_EnableTransmitter(UART1_BASE_PTR, PDD_DISABLE); /* Disable transmitter. */
  UART_PDD_EnableReceiver(UART1_BASE_PTR, PDD_DISABLE); /* Disable receiver. */
  DeviceDataPrv->SerFlag = 0x00U;      /* Reset flags */
  /* UART1_C1: LOOPS=0,UARTSWAI=0,RSRC=0,M=0,WAKE=0,ILT=0,PE=0,PT=0 */
  UART1_C1 = 0x00U;                    /*  Set the C1 register */
  /* UART1_C3: R8=0,T8=0,TXDIR=0,TXINV=0,ORIE=0,NEIE=0,FEIE=0,PEIE=0 */
  UART1_C3 = 0x00U;                    /*  Set the C3 register */
  /* UART1_S2: LBKDIF=0,RXEDGIF=0,??=0,RXINV=0,RWUID=0,BRK13=0,LBKDE=0,RAF=0 */
  UART1_S2 = 0x00U;                    /*  Set the S2 register */
  UART_PDD_SetBaudRate(UART1_BASE_PTR, 52U); /* Set the baud rate register. */
  UART_PDD_EnableTransmitter(UART1_BASE_PTR, PDD_ENABLE); /* Enable transmitter */
  UART_PDD_EnableReceiver(UART1_BASE_PTR, PDD_ENABLE); /* Enable receiver */
  /* Registration of the device structure */
  PE_LDD_RegisterDeviceStructure(PE_LDD_COMPONENT_IO1_ID,DeviceDataPrv);
  return ((LDD_TDeviceData *)DeviceDataPrv);
}
Exemplo n.º 7
0
/* ===================================================================*/
void ASerialLdd1_TurnTxOff(LDD_TDeviceData *DeviceDataPtr)
{
  (void)DeviceDataPtr;                 /* DeviceData structure is not needed, suppress not used argument warning */
  UART_PDD_EnableTransmitter(UART2_BASE_PTR, PDD_DISABLE); /* Disable transmitter. */
}
Exemplo n.º 8
0
/* ===================================================================*/
LDD_TDeviceData* UART_A_Init(LDD_TUserData *UserDataPtr)
{
  /* Allocate device structure */
  UART_A_TDeviceDataPtr DeviceDataPrv;
  /* {MQXLite RTOS Adapter} Driver memory allocation: Dynamic allocation is simulated by a pointer to the static object */
  DeviceDataPrv = &DeviceDataPrv__DEFAULT_RTOS_ALLOC;

  /* Clear the receive counters and pointer */
  DeviceDataPrv->InpRecvDataNum = 0x00U; /* Clear the counter of received characters */
  DeviceDataPrv->InpDataNumReq = 0x00U; /* Clear the counter of characters to receive by ReceiveBlock() */
  DeviceDataPrv->InpDataPtr = NULL;    /* Clear the buffer pointer for received characters */
  /* Clear the transmit counters and pointer */
  DeviceDataPrv->OutSentDataNum = 0x00U; /* Clear the counter of sent characters */
  DeviceDataPrv->OutDataNumReq = 0x00U; /* Clear the counter of characters to be send by SendBlock() */
  DeviceDataPrv->OutDataPtr = NULL;    /* Clear the buffer pointer for data to be transmitted */
  DeviceDataPrv->UserDataPtr = UserDataPtr; /* Store the RTOS device structure */
  /* Allocate interrupt vectors */
  /* {MQXLite RTOS Adapter} Save old and set new interrupt vector (function handler and ISR parameter) */
  /* Note: Exception handler for interrupt is not saved, because it is not modified */
  DeviceDataPrv->SavedISRSettings.isrData = _int_get_isr_data(LDD_ivIndex_INT_UART3_RX_TX);
  DeviceDataPrv->SavedISRSettings.isrFunction = _int_install_isr(LDD_ivIndex_INT_UART3_RX_TX, UART_A_Interrupt, DeviceDataPrv);
  /* {MQXLite RTOS Adapter} Save old and set new interrupt vector (function handler and ISR parameter) */
  /* Note: Exception handler for interrupt is not saved, because it is not modified */
  DeviceDataPrv->SavedISRSettings.isrData = _int_get_isr_data(LDD_ivIndex_INT_UART3_ERR);
  DeviceDataPrv->SavedISRSettings.isrFunction = _int_install_isr(LDD_ivIndex_INT_UART3_ERR, UART_A_Interrupt, DeviceDataPrv);
  /* SIM_SCGC4: UART3=1 */
  SIM_SCGC4 |= SIM_SCGC4_UART3_MASK;
  /* SIM_SCGC5: PORTC=1 */
  SIM_SCGC5 |= SIM_SCGC5_PORTC_MASK;
  /* PORTC_PCR16: ISF=0,MUX=3 */
  PORTC_PCR16 = (uint32_t)((PORTC_PCR16 & (uint32_t)~(uint32_t)(
                 PORT_PCR_ISF_MASK |
                 PORT_PCR_MUX(0x04)
                )) | (uint32_t)(
                 PORT_PCR_MUX(0x03)
                ));
  /* PORTC_PCR17: ISF=0,MUX=3 */
  PORTC_PCR17 = (uint32_t)((PORTC_PCR17 & (uint32_t)~(uint32_t)(
                 PORT_PCR_ISF_MASK |
                 PORT_PCR_MUX(0x04)
                )) | (uint32_t)(
                 PORT_PCR_MUX(0x03)
                ));
  /* NVICIP37: PRI37=0x70 */
  NVICIP37 = NVIC_IP_PRI37(0x70);
  /* NVICISER1: SETENA|=0x20 */
  NVICISER1 |= NVIC_ISER_SETENA(0x20);
  /* NVICIP38: PRI38=0x70 */
  NVICIP38 = NVIC_IP_PRI38(0x70);
  /* NVICISER1: SETENA|=0x40 */
  NVICISER1 |= NVIC_ISER_SETENA(0x40);
  UART_PDD_EnableTransmitter(UART3_BASE_PTR, PDD_DISABLE); /* Disable transmitter. */
  UART_PDD_EnableReceiver(UART3_BASE_PTR, PDD_DISABLE); /* Disable receiver. */
  DeviceDataPrv->SerFlag = 0x00U;      /* Reset flags */
  /* UART3_C1: LOOPS=0,UARTSWAI=0,RSRC=0,M=0,WAKE=0,ILT=0,PE=0,PT=0 */
  UART3_C1 = 0x00U;                    /*  Set the C1 register */
  /* UART3_C3: R8=0,T8=0,TXDIR=0,TXINV=0,ORIE=0,NEIE=0,FEIE=0,PEIE=0 */
  UART3_C3 = 0x00U;                    /*  Set the C3 register */
  /* UART3_C4: MAEN1=0,MAEN2=0,M10=0,BRFA=0 */
  UART3_C4 = UART_C4_BRFA(0x00);       /*  Set the C4 register */
  /* UART3_S2: LBKDIF=0,RXEDGIF=0,MSBF=0,RXINV=0,RWUID=0,BRK13=0,LBKDE=0,RAF=0 */
  UART3_S2 = 0x00U;                    /*  Set the S2 register */
  /* UART3_MODEM: ??=0,??=0,??=0,??=0,RXRTSE=0,TXRTSPOL=0,TXRTSE=0,TXCTSE=0 */
  UART3_MODEM = 0x00U;                 /*  Set the MODEM register */
  UART_PDD_SetBaudRateFineAdjust(UART3_BASE_PTR, 18u); /* Set baud rate fine adjust */
  UART_PDD_SetBaudRate(UART3_BASE_PTR, 32U); /* Set the baud rate register. */
  UART_PDD_EnableFifo(UART3_BASE_PTR, (UART_PDD_TX_FIFO_ENABLE | UART_PDD_RX_FIFO_ENABLE)); /* Enable RX and TX FIFO */
  UART_PDD_FlushFifo(UART3_BASE_PTR, (UART_PDD_TX_FIFO_FLUSH | UART_PDD_RX_FIFO_FLUSH)); /* Flush RX and TX FIFO */
  UART_PDD_EnableTransmitter(UART3_BASE_PTR, PDD_ENABLE); /* Enable transmitter */
  UART_PDD_EnableReceiver(UART3_BASE_PTR, PDD_ENABLE); /* Enable receiver */
  UART_PDD_EnableInterrupt(UART3_BASE_PTR, ( UART_PDD_INTERRUPT_RECEIVER )); /* Enable interrupts */
  /* Registration of the device structure */
  PE_LDD_RegisterDeviceStructure(PE_LDD_COMPONENT_UART_A_ID,DeviceDataPrv);
  return ((LDD_TDeviceData *)DeviceDataPrv);
}
Exemplo n.º 9
0
/* ===================================================================*/
LDD_TDeviceData* UART_SDA_Init(LDD_TUserData *UserDataPtr)
{
  /* Allocate device structure */
  UART_SDA_TDeviceDataPtr DeviceDataPrv;
  /* {Default RTOS Adapter} Driver memory allocation: Dynamic allocation is simulated by a pointer to the static object */
  DeviceDataPrv = &DeviceDataPrv__DEFAULT_RTOS_ALLOC;

  /* Clear the receive counters and pointer */
  DeviceDataPrv->InpRecvDataNum = 0x00U; /* Clear the counter of received characters */
  DeviceDataPrv->InpDataNumReq = 0x00U; /* Clear the counter of characters to receive by ReceiveBlock() */
  DeviceDataPrv->InpDataPtr = NULL;    /* Clear the buffer pointer for received characters */
  /* Clear the transmit counters and pointer */
  DeviceDataPrv->OutSentDataNum = 0x00U; /* Clear the counter of sent characters */
  DeviceDataPrv->OutDataNumReq = 0x00U; /* Clear the counter of characters to be send by SendBlock() */
  DeviceDataPrv->OutDataPtr = NULL;    /* Clear the buffer pointer for data to be transmitted */
  DeviceDataPrv->UserDataPtr = UserDataPtr; /* Store the RTOS device structure */
  /* Allocate interrupt vectors */
  /* {Default RTOS Adapter} Set interrupt vector: IVT is static, ISR parameter is passed by the global variable */
  INT_UART0_RX_TX__DEFAULT_RTOS_ISRPARAM = DeviceDataPrv;
  /* {Default RTOS Adapter} Set interrupt vector: IVT is static, ISR parameter is passed by the global variable */
  INT_UART0_ERR__DEFAULT_RTOS_ISRPARAM = DeviceDataPrv;
  /* SIM_SCGC4: UART0=1 */
  SIM_SCGC4 |= SIM_SCGC4_UART0_MASK;
  /* SIM_SCGC5: PORTB=1 */
  SIM_SCGC5 |= SIM_SCGC5_PORTB_MASK;
  /* PORTB_PCR16: ISF=0,MUX=3 */
  PORTB_PCR16 = (uint32_t)((PORTB_PCR16 & (uint32_t)~(uint32_t)(
                 PORT_PCR_ISF_MASK |
                 PORT_PCR_MUX(0x04)
                )) | (uint32_t)(
                 PORT_PCR_MUX(0x03)
                ));
  /* PORTB_PCR17: ISF=0,MUX=3 */
  PORTB_PCR17 = (uint32_t)((PORTB_PCR17 & (uint32_t)~(uint32_t)(
                 PORT_PCR_ISF_MASK |
                 PORT_PCR_MUX(0x04)
                )) | (uint32_t)(
                 PORT_PCR_MUX(0x03)
                ));
  /* NVICIP31: PRI31=0x70 */
  NVICIP31 = NVIC_IP_PRI31(0x70);
  /* NVICISER0: SETENA|=0x80000000 */
  NVICISER0 |= NVIC_ISER_SETENA(0x80000000);
  /* NVICIP32: PRI32=0x70 */
  NVICIP32 = NVIC_IP_PRI32(0x70);
  /* NVICISER1: SETENA|=1 */
  NVICISER1 |= NVIC_ISER_SETENA(0x01);
  UART_PDD_EnableTransmitter(UART0_BASE_PTR, PDD_DISABLE); /* Disable transmitter. */
  UART_PDD_EnableReceiver(UART0_BASE_PTR, PDD_DISABLE); /* Disable receiver. */
  DeviceDataPrv->SerFlag = 0x00U;      /* Reset flags */
  /* UART0_C1: LOOPS=0,UARTSWAI=0,RSRC=0,M=0,WAKE=0,ILT=0,PE=0,PT=0 */
  UART0_C1 = 0x00U;                    /*  Set the C1 register */
  /* UART0_C3: R8=0,T8=0,TXDIR=0,TXINV=0,ORIE=0,NEIE=0,FEIE=0,PEIE=0 */
  UART0_C3 = 0x00U;                    /*  Set the C3 register */
  /* UART0_C4: MAEN1=0,MAEN2=0,M10=0,BRFA=0 */
  UART0_C4 = UART_C4_BRFA(0x00);       /*  Set the C4 register */
  /* UART0_S2: LBKDIF=0,RXEDGIF=0,MSBF=0,RXINV=0,RWUID=0,BRK13=0,LBKDE=0,RAF=0 */
  UART0_S2 = 0x00U;                    /*  Set the S2 register */
  /* UART0_MODEM: ??=0,??=0,??=0,??=0,RXRTSE=0,TXRTSPOL=0,TXRTSE=0,TXCTSE=0 */
  UART0_MODEM = 0x00U;                 /*  Set the MODEM register */
  UART_SDA_SetClockConfiguration(DeviceDataPrv, Cpu_GetClockConfiguration()); /* Initial speed CPU mode is high */
  /* Registration of the device structure */
  PE_LDD_RegisterDeviceStructure(PE_LDD_COMPONENT_UART_SDA_ID,DeviceDataPrv);
  return ((LDD_TDeviceData *)DeviceDataPrv);
}