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1 69661903 Thomas Schöpping
/************************************************************************************//**
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* \file         Source\ARMCM3_STM32\uart.c
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* \brief        Bootloader UART communication interface source file.
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* \ingroup      Target_ARMCM3_STM32
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* \internal
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*----------------------------------------------------------------------------------------
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*                          C O P Y R I G H T
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*----------------------------------------------------------------------------------------
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*   Copyright (c) 2011  by Feaser    http://www.feaser.com    All rights reserved
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*
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*----------------------------------------------------------------------------------------
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*                            L I C E N S E
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*----------------------------------------------------------------------------------------
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* This file is part of OpenBLT. OpenBLT is free software: you can redistribute it and/or
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* modify it under the terms of the GNU General Public License as published by the Free
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* Software Foundation, either version 3 of the License, or (at your option) any later
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* version.
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*
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* OpenBLT is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
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* without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
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* PURPOSE. See the GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along with OpenBLT.
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* If not, see <http://www.gnu.org/licenses/>.
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*
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* A special exception to the GPL is included to allow you to distribute a combined work 
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* that includes OpenBLT without being obliged to provide the source code for any 
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* proprietary components. The exception text is included at the bottom of the license
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* file <license.html>.
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* 
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* \endinternal
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****************************************************************************************/
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/****************************************************************************************
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* Include files
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****************************************************************************************/
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#include "boot.h"                                /* bootloader generic header          */
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#if (BOOT_COM_UART_ENABLE > 0 || BOOT_GATE_UART_ENABLE > 0)
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/****************************************************************************************
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* Type definitions
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****************************************************************************************/
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/** \brief UART register layout. */
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typedef struct
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{
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  volatile blt_int16u SR;                           /**< status register               */
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  blt_int16u          RESERVED0;
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  volatile blt_int16u DR;                           /**< data register                 */
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  blt_int16u          RESERVED1;
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  volatile blt_int16u BRR;                          /**< baudrate register             */
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  blt_int16u          RESERVED2;
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  volatile blt_int16u CR1;                          /**< control register 1            */
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  blt_int16u          RESERVED3;
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  volatile blt_int16u CR2;                          /**< control register 2            */
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  blt_int16u          RESERVED4;
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  volatile blt_int16u CR3;                          /**< control register 3            */
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  blt_int16u          RESERVED5;
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  volatile blt_int16u GTPR;                         /**< guard time and prescale reg.  */
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  blt_int16u          RESERVED6;
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} tUartRegs;                                        /**< UART register layout type     */
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/****************************************************************************************
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* Macro definitions
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****************************************************************************************/
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/** \brief USART enable bit. */
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#define UART_BIT_UE    ((blt_int16u)0x2000)
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/** \brief Transmitter enable bit. */
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#define UART_BIT_TE    ((blt_int16u)0x0008)
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/** \brief Receiver enable bit. */
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#define UART_BIT_RE    ((blt_int16u)0x0004)
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/** \brief Transmit data reg. empty bit. */
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#define UART_BIT_TXE   ((blt_int16u)0x0080)
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/** \brief Read data reg. not empty bit. */
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#define UART_BIT_RXNE  ((blt_int16u)0x0020)
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/****************************************************************************************
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* Register definitions
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****************************************************************************************/
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#if (BOOT_COM_UART_CHANNEL_INDEX == 0)
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/** \brief Set UART base address to USART1. */
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#define UARTx          ((tUartRegs *) (blt_int32u)0x40013800)
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#elif (BOOT_COM_UART_CHANNEL_INDEX == 1)
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/** \brief Set UART base address to USART2. */
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#define UARTx          ((tUartRegs *) (blt_int32u)0x40004400)
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#else
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/** \brief Set UART base address to USART1 by default. */
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#define UARTx          ((tUartRegs *) (blt_int32u)0x40013800)
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#endif
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#if (BOOT_DEBUGGING_UART2_ENABLE > 0)
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/* activate debugging UART on UART2 */
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#define UARTDebug      ((tUartRegs *) (blt_int32u)0x40004400)
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#endif
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/****************************************************************************************
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* Function prototypes
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****************************************************************************************/
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static blt_bool UartReceiveByte(blt_int8u *data);
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static blt_bool UartTransmitByte(blt_int8u data);
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#if (BOOT_DEBUGGING_UART2_ENABLE > 0)
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static blt_bool UartTransmitDebuggingByte(blt_int8u data);
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#endif
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/************************************************************************************//**
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** \brief     Initializes the UART communication interface.
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** \return    none.
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**
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****************************************************************************************/
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void UartInit(void)
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{
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  /* the current implementation supports USART1 and USART2. throw an assertion error in 
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   * case a different UART channel is configured.  
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   */
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  ASSERT_CT((BOOT_COM_UART_CHANNEL_INDEX == 0) || (BOOT_COM_UART_CHANNEL_INDEX == 1)); 
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  /* first reset the UART configuration. note that this already configures the UART
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   * for 1 stopbit, 8 databits and no parity.
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   */
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  UARTx->BRR = 0;
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  UARTx->CR1 = 0;
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  UARTx->CR2 = 0;
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  UARTx->CR3 = 0;
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  UARTx->GTPR = 0;
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  /* configure the baudrate, knowing that PCLKx is configured to be half of
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   * BOOT_CPU_SYSTEM_SPEED_KHZ.
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   */
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  UARTx->BRR = ((BOOT_CPU_SYSTEM_SPEED_KHZ/2)*(blt_int32u)1000)/BOOT_COM_UART_BAUDRATE;
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  /* enable the UART including the transmitter and the receiver */
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  UARTx->CR1 |= (UART_BIT_UE | UART_BIT_TE | UART_BIT_RE);
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#if (BOOT_DEBUGGING_UART2_ENABLE > 0)
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  UARTDebug->BRR = 0;
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  UARTDebug->CR1 = 0;
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  UARTDebug->CR2 = 0;
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  UARTDebug->CR3 = 0;
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  UARTDebug->GTPR = 0;
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  /* configure the baudrate, knowing that PCLKx is configured to be half of
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   * BOOT_CPU_SYSTEM_SPEED_KHZ.
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   */
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  UARTDebug->BRR = ((BOOT_CPU_SYSTEM_SPEED_KHZ/2)*(blt_int32u)1000)/BOOT_COM_UART_BAUDRATE;
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  /* enable the UART including the transmitter and the receiver */
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  UARTDebug->CR1 |= (UART_BIT_UE | UART_BIT_TE | UART_BIT_RE);
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#endif
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} /*** end of UartInit ***/
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/************************************************************************************//**
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** \brief     Transmits a packet formatted for the communication interface.
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** \param     data Pointer to byte array with data that it to be transmitted.
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** \param     len  Number of bytes that are to be transmitted.
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** \return    none.
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**
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****************************************************************************************/
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void UartTransmitPacket(blt_int8u *data, blt_int8u len)
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{
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  blt_int16u data_index;
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  blt_bool result;
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  /* verify validity of the len-paramenter */
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  ASSERT_RT(len <= BOOT_COM_UART_TX_MAX_DATA);
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  /* first transmit the length of the packet */  
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  result = UartTransmitByte(len);
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  ASSERT_RT(result == BLT_TRUE);  
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  /* transmit all the packet bytes one-by-one */
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  for (data_index = 0; data_index < len; data_index++)
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  {
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    /* keep the watchdog happy */
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    CopService();
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    /* write byte */
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    result = UartTransmitByte(data[data_index]);
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    ASSERT_RT(result == BLT_TRUE);  
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  }
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} /*** end of UartTransmitPacket ***/
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/************************************************************************************//**
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** \brief     Receives a communication interface packet if one is present.
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** \param     data Pointer to byte array where the data is to be stored.
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** \return    Length of message (if the message is invalid, the length will be 0).
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**
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****************************************************************************************/
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blt_int8u UartReceivePacket(blt_int8u *data)
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{
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  static blt_int8u xcpCtoReqPacket[BOOT_COM_UART_RX_MAX_DATA+1];  /* one extra for length */
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  static blt_int8u xcpCtoRxLength;
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  static blt_int8u xcpUartDataLength;
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  static blt_bool  xcpCtoRxInProgress = BLT_FALSE;
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  /* start of cto packet received? */
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  if (xcpCtoRxInProgress == BLT_FALSE)
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  {
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    /* store the message length when received */
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    if (UartReceiveByte(&xcpCtoReqPacket[0]) == BLT_TRUE)
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    {
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      /* save message length */
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      xcpUartDataLength = xcpCtoReqPacket[0];
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      if (xcpCtoReqPacket[0] > 0)
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      {
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        /* indicate that a cto packet is being received */
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        xcpCtoRxInProgress = BLT_TRUE;
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        /* reset packet data count */
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        xcpCtoRxLength = 0;
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      }
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    }
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  }
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  else
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  {
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    /* store the next packet byte */
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    if (UartReceiveByte(&xcpCtoReqPacket[xcpCtoRxLength+1]) == BLT_TRUE)
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    {
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      /* increment the packet data count */
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      xcpCtoRxLength++;
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      /* check to see if the entire packet was received */
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      if (xcpCtoRxLength == xcpCtoReqPacket[0])
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      {
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        /* copy the packet data */
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        CpuMemCopy((blt_int32u)data, (blt_int32u)&xcpCtoReqPacket[1], xcpCtoRxLength);        
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        /* done with cto packet reception */
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        xcpCtoRxInProgress = BLT_FALSE;
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        /* packet reception complete */
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//        return BLT_TRUE;
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        return xcpUartDataLength;
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      }
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    }
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  }
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  /* packet reception not yet complete */
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//  return BLT_FALSE;
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  return 0;
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} /*** end of UartReceivePacket ***/
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/************************************************************************************//**
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** \brief     Receives a communication interface byte if one is present.
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** \param     data Pointer to byte where the data is to be stored.
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** \return    BLT_TRUE if a byte was received, BLT_FALSE otherwise.
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**
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****************************************************************************************/
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static blt_bool UartReceiveByte(blt_int8u *data)
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{
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  /* check if a new byte was received by means of the RDR-bit */
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  if((UARTx->SR & UART_BIT_RXNE) != 0)
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  {
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    /* store the received byte */
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    data[0] = UARTx->DR;
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    /* inform caller of the newly received byte */
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    return BLT_TRUE;
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  }
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  /* inform caller that no new data was received */
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  return BLT_FALSE;
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} /*** end of UartReceiveByte ***/
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/************************************************************************************//**
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** \brief     Transmits a communication interface byte.
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** \param     data Value of byte that is to be transmitted.
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** \return    BLT_TRUE if the byte was transmitted, BLT_FALSE otherwise.
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**
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****************************************************************************************/
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static blt_bool UartTransmitByte(blt_int8u data)
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{
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  /* check if tx holding register can accept new data */
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  if ((UARTx->SR & UART_BIT_TXE) == 0)
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  {
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    /* UART not ready. should not happen */
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    return BLT_FALSE;
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  }
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  /* write byte to transmit holding register */
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  UARTx->DR = data;
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  /* wait for tx holding register to be empty */
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  while((UARTx->SR & UART_BIT_TXE) == 0) 
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  { 
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    /* keep the watchdog happy */
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    CopService();
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  }
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  /* byte transmitted */
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  return BLT_TRUE;
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} /*** end of UartTransmitByte ***/
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//#endif /* BOOT_COM_UART_ENABLE > 0 || BOOT_GATE_UART_ENABLE > 0 */
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#if (BOOT_DEBUGGING_UART2_ENABLE > 0)
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/************************************************************************************//**
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** \brief     Transmits a packet formatted for the communication interface.
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** \param     data Pointer to byte array with data that it to be transmitted.
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** \param     len  Number of bytes that are to be transmitted.
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** \return    none.
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**
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****************************************************************************************/
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void UartSendDebuggingPacket(blt_int8u *data, blt_int8u len)
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{
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  blt_int16u data_index;
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  blt_bool result;
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  /* verify validity of the len-paramenter */
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  ASSERT_RT(len <= BOOT_COM_UART_TX_MAX_DATA);
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  /* first transmit the length of the packet */  
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  result = UartTransmitDebuggingByte(len);
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  ASSERT_RT(result == BLT_TRUE);  
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  /* transmit all the packet bytes one-by-one */
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  for (data_index = 0; data_index < len; data_index++)
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  {
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    /* keep the watchdog happy */
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    CopService();
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    /* write byte */
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    result = UartTransmitDebuggingByte(data[data_index]);
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    ASSERT_RT(result == BLT_TRUE);  
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  }
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} /*** end of UartTransmitPacket ***/
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static blt_bool UartTransmitDebuggingByte(blt_int8u data)
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{
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  /* check if tx holding register can accept new data */
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  if ((UARTDebug->SR & UART_BIT_TXE) == 0)
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  {
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    /* UART not ready. should not happen */
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    return BLT_FALSE;
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  }
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  /* write byte to transmit holding register */
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  UARTDebug->DR = data;
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  /* wait for tx holding register to be empty */
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  while((UARTDebug->SR & UART_BIT_TXE) == 0) 
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  { 
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    /* keep the watchdog happy */
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    CopService();
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  }
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  /* byte transmitted */
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  return BLT_TRUE;
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} /*** end of UartTransmitByte ***/
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#endif
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#endif /* BOOT_COM_UART_ENABLE > 0 || BOOT_GATE_UART_ENABLE > 0 */
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/*********************************** end of uart.c *************************************/