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1 69661903 Thomas Schöpping
/************************************************************************************//**
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* \file         Source\ARMCM3_STM32\can.c
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* \brief        Bootloader CAN 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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#define CAN_DEBUG       (0)
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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 (CAN_DEBUG > 0)
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#include <helper.h>
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#endif
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#if (BOOT_COM_CAN_ENABLE > 0 || BOOT_GATE_CAN_ENABLE > 0)
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/****************************************************************************************
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* Type definitions
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****************************************************************************************/
50
/** \brief CAN transmission mailbox layout. */
51
typedef struct
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{
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  volatile blt_int32u TIR;
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  volatile blt_int32u TDTR;
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  volatile blt_int32u TDLR;
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  volatile blt_int32u TDHR;
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} tCanTxMailBox;
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59
/** \brief CAN reception FIFO mailbox layout. */
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typedef struct
61
{
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  volatile blt_int32u RIR;
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  volatile blt_int32u RDTR;
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  volatile blt_int32u RDLR;
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  volatile blt_int32u RDHR;
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} tCanRxFIFOMailBox;
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68
/** \brief CAN filter register layout. */
69
typedef struct
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{
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  volatile blt_int32u FR1;
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  volatile blt_int32u FR2;
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} tCanFilter;
74
75
/** \brief CAN controller register layout. */
76
typedef struct
77
{
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  volatile blt_int32u MCR;
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  volatile blt_int32u MSR;
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  volatile blt_int32u TSR;
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  volatile blt_int32u RF0R;
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  volatile blt_int32u RF1R;
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  volatile blt_int32u IER;
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  volatile blt_int32u ESR;
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  volatile blt_int32u BTR;
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  blt_int32u          RESERVED0[88];
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  tCanTxMailBox       sTxMailBox[3];
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  tCanRxFIFOMailBox   sFIFOMailBox[2];
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  blt_int32u          RESERVED1[12];
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  volatile blt_int32u FMR;
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  volatile blt_int32u FM1R;
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  blt_int32u          RESERVED2;
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  volatile blt_int32u FS1R;
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  blt_int32u          RESERVED3;
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  volatile blt_int32u FFA1R;
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  blt_int32u          RESERVED4;
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  volatile blt_int32u FA1R;
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  blt_int32u          RESERVED5[8];
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  tCanFilter          sFilterRegister[14];
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} tCanRegs;
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102
103
/****************************************************************************************
104
* Macro definitions
105
****************************************************************************************/
106
/** \brief Reset request bit. */
107
#define CAN_BIT_RESET    ((blt_int32u)0x00008000)
108
/** \brief Initialization request bit. */
109
#define CAN_BIT_INRQ     ((blt_int32u)0x00000001)
110
/** \brief Initialization acknowledge bit. */
111
#define CAN_BIT_INAK     ((blt_int32u)0x00000001)
112
/** \brief Sleep mode request bit. */
113
#define CAN_BIT_SLEEP    ((blt_int32u)0x00000002)
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/** \brief Filter 0 selection bit. */
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#define CAN_BIT_FILTER0  ((blt_int32u)0x00000001)
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/** \brief Filter init mode bit. */
117
#define CAN_BIT_FINIT    ((blt_int32u)0x00000001)
118
/** \brief Transmit mailbox 0 empty bit. */
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#define CAN_BIT_TME0     ((blt_int32u)0x04000000)
120
/** \brief Transmit mailbox request bit. */
121
#define CAN_BIT_TXRQ     ((blt_int32u)0x00000001)
122
/** \brief Release FIFO 0 mailbox bit. */
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#define CAN_BIT_RFOM0    ((blt_int32u)0x00000020)
124
125
#if (BOOT_GATE_CAN_ENABLE > 0)
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blt_bool commandSend;
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#endif /* BOOT_GATE_CAN_ENABLE > 0 */
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129
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/****************************************************************************************
131
* Register definitions
132
****************************************************************************************/
133
/** \brief Macro for accessing CAN controller registers. */
134
#define CANx             ((tCanRegs *) (blt_int32u)0x40006400)
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136
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/****************************************************************************************
138
* Type definitions
139
****************************************************************************************/
140
/** \brief Structure type for grouping CAN bus timing related information. */
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typedef struct t_can_bus_timing
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{
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  blt_int8u tseg1;                                    /**< CAN time segment 1          */
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  blt_int8u tseg2;                                    /**< CAN time segment 2          */
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} tCanBusTiming;
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/****************************************************************************************
149
* Local constant declarations
150
****************************************************************************************/
151
/** \brief CAN bittiming table for dynamically calculating the bittiming settings.
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 *  \details According to the CAN protocol 1 bit-time can be made up of between 8..25
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 *           time quanta (TQ). The total TQ in a bit is SYNC + TSEG1 + TSEG2 with SYNC
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 *           always being 1. The sample point is (SYNC + TSEG1) / (SYNC + TSEG1 + SEG2) *
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 *           100%. This array contains possible and valid time quanta configurations with
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 *           a sample point between 68..78%.
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 */
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static const tCanBusTiming canTiming[] =
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{                       /*  TQ | TSEG1 | TSEG2 | SP  */
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                        /* ------------------------- */
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    {  5, 2 },          /*   8 |   5   |   2   | 75% */
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    {  6, 2 },          /*   9 |   6   |   2   | 78% */
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    {  6, 3 },          /*  10 |   6   |   3   | 70% */
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    {  7, 3 },          /*  11 |   7   |   3   | 73% */
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    {  8, 3 },          /*  12 |   8   |   3   | 75% */
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    {  9, 3 },          /*  13 |   9   |   3   | 77% */
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    {  9, 4 },          /*  14 |   9   |   4   | 71% */
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    { 10, 4 },          /*  15 |  10   |   4   | 73% */
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    { 11, 4 },          /*  16 |  11   |   4   | 75% */
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    { 12, 4 },          /*  17 |  12   |   4   | 76% */
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    { 12, 5 },          /*  18 |  12   |   5   | 72% */
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    { 13, 5 },          /*  19 |  13   |   5   | 74% */
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    { 14, 5 },          /*  20 |  14   |   5   | 75% */
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    { 15, 5 },          /*  21 |  15   |   5   | 76% */
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    { 15, 6 },          /*  22 |  15   |   6   | 73% */
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    { 16, 6 },          /*  23 |  16   |   6   | 74% */
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    { 16, 7 },          /*  24 |  16   |   7   | 71% */
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    { 16, 8 }           /*  25 |  16   |   8   | 68% */
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};
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/************************************************************************************//**
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** \brief     Search algorithm to match the desired baudrate to a possible bus
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**            timing configuration.
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** \param     baud The desired baudrate in kbps. Valid values are 10..1000.
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** \param     prescaler Pointer to where the value for the prescaler will be stored.
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** \param     tseg1 Pointer to where the value for TSEG2 will be stored.
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** \param     tseg2 Pointer to where the value for TSEG2 will be stored.
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** \return    BLT_TRUE if the CAN bustiming register values were found, BLT_FALSE
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**            otherwise.
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**
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****************************************************************************************/
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static blt_bool CanGetSpeedConfig(blt_int16u baud, blt_int16u *prescaler,
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                                  blt_int8u *tseg1, blt_int8u *tseg2)
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{
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  blt_int8u  cnt;
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  /* loop through all possible time quanta configurations to find a match */
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  for (cnt=0; cnt < sizeof(canTiming)/sizeof(canTiming[0]); cnt++)
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  {
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    if (((BOOT_CPU_SYSTEM_SPEED_KHZ/2) % (baud*(canTiming[cnt].tseg1+canTiming[cnt].tseg2+1))) == 0)
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    {
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      /* compute the prescaler that goes with this TQ configuration */
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      *prescaler = (BOOT_CPU_SYSTEM_SPEED_KHZ/2)/(baud*(canTiming[cnt].tseg1+canTiming[cnt].tseg2+1));
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      /* make sure the prescaler is valid */
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      if ( (*prescaler > 0) && (*prescaler <= 1024) )
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      {
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        /* store the bustiming configuration */
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        *tseg1 = canTiming[cnt].tseg1;
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        *tseg2 = canTiming[cnt].tseg2;
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        /* found a good bus timing configuration */
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        return BLT_TRUE;
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      }
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    }
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  }
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  /* could not find a good bus timing configuration */
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  return BLT_FALSE;
219
} /*** end of CanGetSpeedConfig ***/
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/************************************************************************************//**
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** \brief     Initializes the CAN controller and synchronizes it to the CAN bus.
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** \return    none.
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**
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****************************************************************************************/
227
void CanInit(void)
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{
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  blt_int16u prescaler;
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  blt_int8u  tseg1, tseg2;
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  blt_bool   result;
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#if (BOOT_GATE_CAN_ENABLE > 0)
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  commandSend = BLT_FALSE;
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#endif /* BOOT_GATE_CAN_ENABLE > 0 */
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  /* the current implementation supports CAN1. throw an assertion error in case a
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   * different CAN channel is configured.
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   */
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  ASSERT_CT(BOOT_COM_CAN_CHANNEL_INDEX == 0);
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  /* obtain bittiming configuration information */
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  result = CanGetSpeedConfig(BOOT_COM_CAN_BAUDRATE/1000, &prescaler, &tseg1, &tseg2);
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  ASSERT_RT(result == BLT_TRUE);
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  /* disable all can interrupt. this driver works in polling mode */
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  CANx->IER = (blt_int32u)0;
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  /* set request to reset the can controller */
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  CANx->MCR |= CAN_BIT_RESET ;
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  /* wait for acknowledge that the can controller was reset */
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  while ((CANx->MCR & CAN_BIT_RESET) != 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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  /* exit from sleep mode, which is the default mode after reset */
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  CANx->MCR &= ~CAN_BIT_SLEEP;
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  /* set request to enter initialisation mode */
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  CANx->MCR |= CAN_BIT_INRQ ;
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  /* wait for acknowledge that initialization mode was entered */
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  while ((CANx->MSR & CAN_BIT_INAK) == 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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  /* configure the bittming */
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  CANx->BTR = (blt_int32u)((blt_int32u)(tseg1 - 1) << 16) | \
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              (blt_int32u)((blt_int32u)(tseg2 - 1) << 20) | \
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              (blt_int32u)(prescaler - 1);
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  /* set request to leave initialisation mode */
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  CANx->MCR &= ~CAN_BIT_INRQ;
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  /* wait for acknowledge that initialization mode was exited */
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  while ((CANx->MSR & CAN_BIT_INAK) != 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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  /* enter initialisation mode for the acceptance filter */
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  CANx->FMR |= CAN_BIT_FINIT;
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  /* deactivate filter 0 */
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  CANx->FA1R &= ~CAN_BIT_FILTER0;
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  /* 32-bit scale for the filter */
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  CANx->FS1R |= CAN_BIT_FILTER0;
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  /* open up the acceptance filter to receive all messages */
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  CANx->sFilterRegister[0].FR1 = 0;
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  CANx->sFilterRegister[0].FR2 = 0;
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  /* select id/mask mode for the filter */
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  CANx->FM1R &= ~CAN_BIT_FILTER0;
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  /* FIFO 0 assignation for the filter */
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  CANx->FFA1R &= ~CAN_BIT_FILTER0;
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  /* filter activation */
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  CANx->FA1R |= CAN_BIT_FILTER0;
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  /* leave initialisation mode for the acceptance filter */
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  CANx->FMR &= ~CAN_BIT_FINIT;
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} /*** end of CanInit ***/
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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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** \param     deviceID ID of the device the data has to be sent to.
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** \return    none.
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**
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****************************************************************************************/
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void CanTransmitPacket(blt_int8u *data, blt_int8u len, blt_int32u deviceID)
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{
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  /* make sure that transmit mailbox 0 is available */
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  ASSERT_RT((CANx->TSR&CAN_BIT_TME0) == CAN_BIT_TME0);
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  blt_int32u address;
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#if (BOOT_GATE_CAN_ENABLE > 0)
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  if (deviceID == 0) {
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#endif /* BOOT_GATE_CAN_ENABLE > 0 */
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    address = (blt_int32u)BOOT_COM_CAN_TX_MSG_ID;
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#if (BOOT_GATE_CAN_ENABLE > 0)
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    commandSend = BLT_FALSE;
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  } else {
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    address = (blt_int32u)BOOT_COM_CAN_RX_MSG_ID;
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    commandSend = BLT_TRUE;
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  }
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#endif /* BOOT_GATE_CAN_ENABLE > 0 */
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  /* init variables */
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  blt_int8u canData[8];
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  blt_int8u restLen = len;
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  blt_int8u canIdx = 0;
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  blt_int32u ackMsgId;
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  blt_int8u ackMsgLen;
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  /* send the given package in 8 byte packages */
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  while (restLen > 0) {
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    /* build the message identifier */
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    CANx->sTxMailBox[0].TIR &= CAN_BIT_TXRQ;
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    CANx->sTxMailBox[0].TIR |= (address << 21);
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    /* if this is the first transmission of this packet */
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    if (restLen == len) {
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      /* store the message date length code (DLC) */
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      CANx->sTxMailBox[0].TDTR = (restLen > 4) ? 8 : restLen+1+4;
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      /* store the device ID */
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      canData[0] = (blt_int8u)(0xFF & (deviceID >> 0));
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      canData[1] = (blt_int8u)(0xFF & (deviceID >> 8));
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      canData[2] = (blt_int8u)(0xFF & (deviceID >> 16));
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      canData[3] = (blt_int8u)(0xFF & (deviceID >> 24));
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      /* store the remaining packet length */
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      canData[4] = restLen;
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      canIdx = 5;
351
    }
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    /* if this is a succeeding transmission of this packet */
353
    else {
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      /* store the message date length code (DLC) */
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      CANx->sTxMailBox[0].TDTR = (restLen > 7) ? 8 : restLen+1;
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      /* store the remaining packet length */
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      canData[0] = restLen;
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      canIdx = 1;
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    }
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364
    /* store the packet payload */
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    while (restLen > 0 && canIdx < 8) {
366
      canData[canIdx] = data[len-restLen];
367
      canIdx++;
368
      restLen--;
369
    }
370
    /* fill rest with nulls */
371
    while (canIdx < 8) {
372
      canData[canIdx] = 0;
373
      canIdx++;
374
    }
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    /* store the message data bytes */
377
    CANx->sTxMailBox[0].TDLR = (((blt_int32u)canData[3] << 24) | \
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                                ((blt_int32u)canData[2] << 16) | \
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                                ((blt_int32u)canData[1] <<  8) | \
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                                ((blt_int32u)canData[0]));
381
    CANx->sTxMailBox[0].TDHR = (((blt_int32u)canData[7] << 24) | \
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                                ((blt_int32u)canData[6] << 16) | \
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                                ((blt_int32u)canData[5] <<  8) | \
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                                ((blt_int32u)canData[4]));
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    /* request the start of message transmission */
387
    CANx->sTxMailBox[0].TIR |= CAN_BIT_TXRQ;
388
    /* wait for transmit completion */
389
    while ((CANx->TSR&CAN_BIT_TME0) == 0)
390
    {
391
      /* keep the watchdog happy */
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      CopService();
393
    }
394
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    /* wait for the acknowledgement transmission */
396
    while ((CANx->RF0R&(blt_int32u)0x00000003) == 0) {
397
      /* keep the watchdog happy */
398
      CopService();
399
    }
400
401
    /* read out the message identifier, length and payload */
402
    ackMsgId = (blt_int32u)0x000007FF & (CANx->sFIFOMailBox[0].RIR >> 21);
403
    ackMsgLen = (blt_int8u)0x0F & CANx->sFIFOMailBox[0].RDTR;
404
    canData[0] = (blt_int8u)0xFF & CANx->sFIFOMailBox[0].RDLR;
405
    canData[1] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDLR >> 8);
406
    canData[2] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDLR >> 16);
407
    canData[3] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDLR >> 24);
408
    canData[4] = (blt_int8u)0xFF & CANx->sFIFOMailBox[0].RDHR;
409
    canData[5] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDHR >> 8);
410
    canData[6] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDHR >> 16);
411
    canData[7] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDHR >> 24);
412
413
#if (CAN_DEBUG > 0)
414
    /* verification:
415
     * - ID must be "address & BOOT_COM_CAN_MSG_ACK"
416
     * - length must be 1
417
     * - canData[0] must b equal to restLen
418
     */
419
    if (ackMsgId != (address | (blt_int32u)BOOT_COM_CAN_MSG_ACK) ||
420
        ackMsgLen != 1 ||
421
        canData[0] != restLen) {
422
      /* some error occurred */
423
      blinkSOS(1);
424
      msleep(500);
425
      visualizeData((blt_int8u*)&ackMsgId, 2, 1);
426
      msleep(500);
427
      visualizeByte(ackMsgLen, 1);
428
      msleep(500);
429
      visualizeByte(canData[0], 1);
430
      msleep(500);
431
      visualizeByte(restLen, 1);
432
      blinkSOSinf();
433
    }
434
#endif /* CAN_DEBUG > 0 */
435
436
    /* release FIFO0 */
437
    CANx->RF0R |= CAN_BIT_RFOM0;
438
439
    /* modify address so that receivers can filter */
440
    address |= (blt_int32u)BOOT_COM_CAN_MSG_SUBSEQUENT;
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  }
442
} /*** end of CanTransmitPacket ***/
443
444
445
/************************************************************************************//**
446
** \brief     Receives a communication interface packet if one is present.
447
** \param     data Pointer to byte array where the data is to be stored.
448
** \return    Length of message (if the message is invalid, the length will be 0).
449
**
450
****************************************************************************************/
451
blt_int8u CanReceivePacket(blt_int8u *data)
452
{
453
  blt_int32u rxMsgId;
454
  blt_bool   result = BLT_FALSE;
455
  blt_int8u  length = 0;
456
457
  static blt_int8u readData[BOOT_COM_RX_MAX_DATA];
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  static blt_int8u receivedLen = 0;
459
  static blt_int8u lastLen = 0;
460
  static blt_int8u toReceive = 0;
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  blt_int8u canData[8];
462
  blt_int8u restLen;
463
  blt_int8u canLength;
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  blt_int8u idx;
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  blt_int32u compID;
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#if (BOOT_GATE_CAN_ENABLE > 0)
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  if (commandSend == BLT_TRUE) {
469
    compID = (blt_int32u)BOOT_COM_CAN_TX_MSG_ID;
470
  } else {
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#endif /* BOOT_GATE_CAN_ENABLE > 0 */
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    compID = (blt_int32u)BOOT_COM_CAN_RX_MSG_ID;
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#if (BOOT_GATE_CAN_ENABLE > 0)
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  }
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#endif /* BOOT_GATE_CAN_ENABLE > 0 */
476
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  /* check if a new message was received  or is more to come */
478
  while ((CANx->RF0R&(blt_int32u)0x00000003) > 0 || receivedLen < toReceive)
479
  {
480
    /* wait for a transmission if required */
481
    while (receivedLen < toReceive && (CANx->RF0R&(blt_int32u)0x00000003) == 0) {
482
      /* keep the watchdog happy */
483
      CopService();
484
    }
485
486
    /* read out the message identifier */
487
    rxMsgId = (blt_int32u)0x000007FF & (CANx->sFIFOMailBox[0].RIR >> 21);
488
    /* is this the packet identifier */
489 69661903 Thomas Schöpping
    if (rxMsgId == compID)
490
    {
491
      result = BLT_TRUE;
492
493
      /* save length */
494
      canLength = (blt_int8u)0x0F & CANx->sFIFOMailBox[0].RDTR;
495
      /* store the received packet data */
496
      canData[0] = (blt_int8u)0xFF & CANx->sFIFOMailBox[0].RDLR;
497
      canData[1] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDLR >> 8);
498
      canData[2] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDLR >> 16);
499
      canData[3] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDLR >> 24);
500
      canData[4] = (blt_int8u)0xFF & CANx->sFIFOMailBox[0].RDHR;
501
      canData[5] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDHR >> 8);
502
      canData[6] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDHR >> 16);
503
      canData[7] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDHR >> 24);
504
505 d54d2f07 Thomas Schöpping
#if (CAN_DEBUG > 0)
506
      if ((receivedLen == 0 && (rxMsgId & (blt_int32u)BOOT_COM_CAN_MSG_SUBSEQUENT) != 0) ||
507
          (receivedLen > 0 && (rxMsgId & (blt_int32u)BOOT_COM_CAN_MSG_SUBSEQUENT) == 0)) {
508
        blinkSOS(4);
509
        msleep(500);
510
        visualizeByte(toReceive, 1);
511
        msleep(500);
512
        visualizeByte(receivedLen, 1);
513
        msleep(500);
514
        visualizeData((blt_int8u*)&rxMsgId, 2, 1);
515
        msleep(500);
516
        blinkSOSinf();
517
      }
518
#endif /* CAN_DEBUG > 0 */
519
520
      /* if this is the first transmission of this packet */
521 69661903 Thomas Schöpping
      if (receivedLen == 0) {
522 d54d2f07 Thomas Schöpping
        /* abort if the message was meant for someone else */
523
        blt_int32u deviceID = (((blt_int32u)canData[3]) << 24) | \
524
                              (((blt_int32u)canData[2]) << 16) | \
525
                              (((blt_int32u)canData[1]) <<  8) | \
526
                              (((blt_int32u)canData[0]));
527
#if (BOOT_GATE_ENABLE > 0)
528
        if ((commandSend == BLT_TRUE && deviceID == 0) ||
529
            (commandSend != BLT_TRUE && (deviceID == (blt_int32u)BOOT_COM_DEVICE_ID) || deviceID == (blt_int32u)BOOT_COM_DEVICE_LEGACY_ID)) {
530
#else
531
        if (deviceID == (blt_int32u)BOOT_COM_DEVICE_ID ||
532
            deviceID == (blt_int32u)BOOT_COM_DEVICE_LEGACY_ID) {
533
#endif
534
          /* store length of the packet */
535
          toReceive = canData[4];
536
          lastLen = canData[4];
537
          idx = 5;
538
539
          /* modify the listening address for filtering of subsequent transmissions */
540
          compID |= (blt_int32u)BOOT_COM_CAN_MSG_SUBSEQUENT;
541
        } else {
542
          /* release FIFO0 */
543
          CANx->RF0R |= CAN_BIT_RFOM0;
544
          break;
545
        }
546
      }
547
      /* if this is a subsequent transmission of a packet */
548
      else {
549
        /* store rest length and check if possible */
550 69661903 Thomas Schöpping
        restLen = canData[0];
551 d54d2f07 Thomas Schöpping
#if (CAN_DEBUG > 0)
552
        if (restLen != toReceive-receivedLen ||
553
            canLength > restLen+1 ||
554
            lastLen-restLen != ((lastLen==toReceive) ? 3 : 7)) {
555
          /* transmission has been lost */
556
          blinkSOS(2);
557
          msleep(500);
558
          visualizeData((blt_int8u*)&rxMsgId, 4, 1);
559
          msleep(500);
560
          visualizeByte(toReceive, 1);
561
          msleep(500);
562
          visualizeByte(receivedLen, 1);
563
          msleep(500);
564
          visualizeByte(lastLen, 1);
565
          msleep(500);
566
          visualizeByte(restLen, 1);
567
          msleep(500);
568
          visualizeByte(canLength, 1);
569
          msleep(500);
570
          visualizeData(readData, receivedLen, 1);
571
          blinkSOSinf();
572 69661903 Thomas Schöpping
        }
573 d54d2f07 Thomas Schöpping
#endif /* CAN_DEBUG > 0 */
574 69661903 Thomas Schöpping
        lastLen = restLen;
575 d54d2f07 Thomas Schöpping
        idx = 1;
576 69661903 Thomas Schöpping
      }
577
578 d54d2f07 Thomas Schöpping
      /* store the payload */
579
      for (; idx < canLength; idx++) {
580 69661903 Thomas Schöpping
        readData[receivedLen] = canData[idx];
581
        receivedLen++;
582
      }
583
584 d54d2f07 Thomas Schöpping
      /* release FIFO0 */
585
      CANx->RF0R |= CAN_BIT_RFOM0;
586
587
      /* send acknowledgement */
588
      CANx->sTxMailBox[0].TIR &= CAN_BIT_TXRQ;
589
      CANx->sTxMailBox[0].TIR |= ((rxMsgId | (blt_int32u)BOOT_COM_CAN_MSG_ACK) << 21);
590
      CANx->sTxMailBox[0].TDTR = 1;
591
      CANx->sTxMailBox[0].TDLR = (((blt_int32u)0 << 24) | \
592
                                  ((blt_int32u)0 << 16) | \
593
                                  ((blt_int32u)0 <<  8) | \
594
                                  ((blt_int32u)(toReceive-receivedLen)));
595
      CANx->sTxMailBox[0].TDHR = (((blt_int32u)0 << 24) | \
596
                                  ((blt_int32u)0 << 16) | \
597
                                  ((blt_int32u)0 <<  8) | \
598
                                  ((blt_int32u)0));
599
600
      /* request the start of message transmission */
601
      CANx->sTxMailBox[0].TIR |= CAN_BIT_TXRQ;
602
      /* wait for transmit completion */
603
      while ((CANx->TSR&CAN_BIT_TME0) == 0)
604
      {
605
        /* keep the watchdog happy */
606
        CopService();
607
      }
608
609 69661903 Thomas Schöpping
      /* check if full package has been received */
610 d54d2f07 Thomas Schöpping
      if (receivedLen == toReceive) {
611
#if (BOOT_GATE_CAN_ENABLE > 0)
612
        commandSend = BLT_FALSE;
613
#endif /* BOOT_GATE_CAN_ENABLE > 0 */
614 69661903 Thomas Schöpping
        for (idx = 0; idx < toReceive; idx++) {
615
          data[idx] = readData[idx];
616
        }
617
        length = toReceive;
618 d54d2f07 Thomas Schöpping
        /* reset static variables */
619
        receivedLen = 0;
620
        toReceive = 0;
621
        break;
622 69661903 Thomas Schöpping
      } else {
623 d54d2f07 Thomas Schöpping
#if (CAN_DEBUG > 0)
624
        if (receivedLen > toReceive) {
625
          /* something strange happened */
626
          blinkSOS(3);
627
          msleep(500);
628
          visualizeByte(toReceive, 1);
629
          msleep(500);
630
          visualizeByte(receivedLen, 1);
631
          blinkSOSinf();
632
        }
633
#endif /* CAN_DEBUG > 0 */
634 69661903 Thomas Schöpping
        length = 0;
635
      }
636 d54d2f07 Thomas Schöpping
    } else {
637
      /* release FIFO0 */
638
      CANx->RF0R |= CAN_BIT_RFOM0;
639 69661903 Thomas Schöpping
    }
640
  }
641 d54d2f07 Thomas Schöpping
642 69661903 Thomas Schöpping
  return length;
643
} /*** end of CanReceivePacket ***/
644
#endif /* BOOT_COM_CAN_ENABLE > 0  || BOOT_GATE_CAN_ENABLE > 0 */
645
646
647
/*********************************** end of can.c **************************************/