amiro-blt / Target / Source / ARMCM4_STM32 / can.c @ 9ed9243f
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/************************************************************************************//** |
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* \file Source\ARMCM4_STM32\can.c
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* \brief Bootloader CAN communication interface source file.
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* \ingroup Target_ARMCM4_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) 2013 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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****************************************************************************************/
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/** \brief CAN transmission mailbox layout. */
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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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/** \brief CAN reception FIFO mailbox layout. */
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typedef struct |
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{ |
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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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/** \brief CAN filter register layout. */
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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; |
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/** \brief CAN controller register layout. */
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typedef struct |
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{ |
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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[28];
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} tCanRegs; |
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/****************************************************************************************
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* Macro definitions
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****************************************************************************************/
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/** \brief Reset request bit. */
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#define CAN_BIT_RESET ((blt_int32u)0x00008000) |
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/** \brief Initialization request bit. */
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#define CAN_BIT_INRQ ((blt_int32u)0x00000001) |
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/** \brief Initialization acknowledge bit. */
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#define CAN_BIT_INAK ((blt_int32u)0x00000001) |
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/** \brief Sleep mode request bit. */
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#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 14 selection bit. */
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#define CAN_BIT_FILTER14 ((blt_int32u)0x00004000) |
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/** \brief Filter init mode bit. */
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#define CAN_BIT_FINIT ((blt_int32u)0x00000001) |
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/** \brief Transmit mailbox 0 empty bit. */
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#define CAN_BIT_TME0 ((blt_int32u)0x04000000) |
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/** \brief Transmit mailbox request bit. */
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#define CAN_BIT_TXRQ ((blt_int32u)0x00000001) |
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/** \brief Release FIFO 0 mailbox bit. */
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#define CAN_BIT_RFOM0 ((blt_int32u)0x00000020) |
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#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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/****************************************************************************************
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* Register definitions
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****************************************************************************************/
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#if (BOOT_COM_CAN_CHANNEL_INDEX == 0) |
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/** \brief Macro for accessing CAN1 controller registers. */
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#define CANx ((tCanRegs *) (blt_int32u)0x40006400) |
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#else
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/** \brief Macro for accessing CAN2 controller registers. */
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#define CANx ((tCanRegs *) (blt_int32u)0x40006800) |
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#endif
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/** \brief Macro for accessing CAN1 controller registers. */
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#define CAN1 ((tCanRegs *) (blt_int32u)0x40006400) |
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/****************************************************************************************
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* Type definitions
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****************************************************************************************/
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/** \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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/****************************************************************************************
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* Local constant declarations
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****************************************************************************************/
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/** \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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int counter = 0; |
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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/4) % (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/4)/(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;
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} /*** 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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****************************************************************************************/
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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 and 2. 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 || BOOT_COM_CAN_CHANNEL_INDEX == 1)); |
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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)(3) << 24) | \ |
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(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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// 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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(blt_int32u)(0x3 << 30);
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// CANx->BTR = (blt_int32u)((blt_int32u)(15) << 16) | \
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(blt_int32u)((blt_int32u)(3) << 20) | \
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(blt_int32u)((blt_int32u)(1) << 24) | \
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(blt_int32u)(1) | \
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(blt_int32u)(0x3 << 30);
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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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#if (BOOT_COM_CAN_CHANNEL_INDEX == 0) |
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/* enter initialisation mode for the acceptance filter */
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CAN1->FMR |= CAN_BIT_FINIT; |
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/* deactivate filter 0 */
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CAN1->FA1R &= ~CAN_BIT_FILTER0; |
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/* 32-bit scale for the filter */
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CAN1->FS1R |= CAN_BIT_FILTER0; |
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/* open up the acceptance filter to receive all messages */
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CAN1->sFilterRegister[0].FR1 = 0; |
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CAN1->sFilterRegister[0].FR2 = 0; |
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/* select id/mask mode for the filter */
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CAN1->FM1R &= ~CAN_BIT_FILTER0; |
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/* FIFO 0 assignation for the filter */
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CAN1->FFA1R &= ~CAN_BIT_FILTER0; |
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/* filter activation */
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CAN1->FA1R |= CAN_BIT_FILTER0; |
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/* leave initialisation mode for the acceptance filter */
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CAN1->FMR &= ~CAN_BIT_FINIT; |
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#else
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/* enter initialisation mode for the acceptance filter */
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CAN1->FMR |= CAN_BIT_FINIT; |
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/* deactivate filter 14 */
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CAN1->FA1R &= ~CAN_BIT_FILTER14; |
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/* 32-bit scale for the filter */
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CAN1->FS1R |= CAN_BIT_FILTER14; |
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/* open up the acceptance filter to receive all messages */
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CAN1->sFilterRegister[14].FR1 = 0; |
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CAN1->sFilterRegister[14].FR2 = 0; |
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/* select id/mask mode for the filter */
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CAN1->FM1R &= ~CAN_BIT_FILTER14; |
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/* FIFO 0 assignation for the filter */
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CAN1->FFA1R &= ~CAN_BIT_FILTER14; |
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/* filter activation */
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CAN1->FA1R |= CAN_BIT_FILTER14; |
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/* leave initialisation mode for the acceptance filter */
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CAN1->FMR &= ~CAN_BIT_FINIT; |
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#endif
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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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** \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;
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} |
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/* if this is a succeeding transmission of this packet */
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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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/* store the packet payload */
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while (restLen > 0 && canIdx < 8) { |
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canData[canIdx] = data[len-restLen]; |
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canIdx++; |
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restLen--; |
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} |
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/* fill rest with nulls */
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while (canIdx < 8) { |
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canData[canIdx] = 0;
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canIdx++; |
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} |
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/* store the message data bytes */
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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]));
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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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|
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/* request the start of message transmission */
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CANx->sTxMailBox[0].TIR |= CAN_BIT_TXRQ;
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/* wait for transmit completion */
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while ((CANx->TSR&CAN_BIT_TME0) == 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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|
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/* wait for the acknowledgement transmission */
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while ((CANx->RF0R&(blt_int32u)0x00000003) == 0) { |
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/* keep the watchdog happy */
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CopService(); |
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} |
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|
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/* read out the message identifier, length and payload */
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ackMsgId = (blt_int32u)0x000007FF & (CANx->sFIFOMailBox[0].RIR >> 21); |
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ackMsgLen = (blt_int8u)0x0F & CANx->sFIFOMailBox[0].RDTR; |
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canData[0] = (blt_int8u)0xFF & CANx->sFIFOMailBox[0].RDLR; |
445 |
canData[1] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDLR >> 8); |
446 |
canData[2] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDLR >> 16); |
447 |
canData[3] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDLR >> 24); |
448 |
canData[4] = (blt_int8u)0xFF & CANx->sFIFOMailBox[0].RDHR; |
449 |
canData[5] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDHR >> 8); |
450 |
canData[6] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDHR >> 16); |
451 |
canData[7] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDHR >> 24); |
452 |
|
453 |
#if (CAN_DEBUG > 0) |
454 |
/* verification:
|
455 |
* - ID must be "address & BOOT_COM_CAN_MSG_ACK"
|
456 |
* - length must be 1
|
457 |
* - canData[0] must b equal to restLen
|
458 |
*/
|
459 |
if (ackMsgId != (address | (blt_int32u)BOOT_COM_CAN_MSG_ACK) ||
|
460 |
ackMsgLen != 1 ||
|
461 |
canData[0] != restLen) {
|
462 |
/* some error occurred */
|
463 |
blinkSOS(1);
|
464 |
msleep(500);
|
465 |
visualizeData((blt_int8u*)&ackMsgId, 2, 1); |
466 |
msleep(500);
|
467 |
visualizeByte(ackMsgLen, 1);
|
468 |
msleep(500);
|
469 |
visualizeByte(canData[0], 1); |
470 |
msleep(500);
|
471 |
visualizeByte(restLen, 1);
|
472 |
blinkSOSinf(); |
473 |
} |
474 |
#endif /* CAN_DEBUG > 0 */ |
475 |
|
476 |
/* release FIFO0 */
|
477 |
CANx->RF0R |= CAN_BIT_RFOM0; |
478 |
|
479 |
/* modify address so that receivers can filter */
|
480 |
address |= (blt_int32u)BOOT_COM_CAN_MSG_SUBSEQUENT; |
481 |
} |
482 |
} /*** end of CanTransmitSinglePacket ***/
|
483 |
|
484 |
|
485 |
/************************************************************************************//** |
486 |
** \brief Transmits many packets formatted for the communication interface.
|
487 |
** \param data Pointer to byte array with data that it to be transmitted.
|
488 |
** \param len Number of bytes that are to be transmitted.
|
489 |
** \return none.
|
490 |
|
491 |
**
|
492 |
****************************************************************************************/
|
493 |
/*void CanTransmitPacket(blt_int8u *data, blt_int8u len, blt_int8u deviceID)
|
494 |
{
|
495 |
static blt_int8u canPacketData[8];
|
496 |
|
497 |
canPacketData[0] = len;
|
498 |
blt_int8u restLength = len;
|
499 |
while (restLength > 0) {
|
500 |
blt_int8u canIdx = 0;
|
501 |
if (restLength == len) {
|
502 |
canIdx = 1;
|
503 |
}
|
504 |
|
505 |
/* while (restLength > 0 && canIdx < 8) {
|
506 |
canPacketData[canIdx] = data[len-restLength];
|
507 |
canIdx++;
|
508 |
restLength--;
|
509 |
}*/
|
510 |
/* blt_int8u dataLength = 8;
|
511 |
if (dataLength > restLength) {
|
512 |
dataLength = restLength;
|
513 |
}
|
514 |
CpuMemCopy((blt_int32u)&canPacketData[1], (blt_int32u)&data[], toReceive);
|
515 |
|
516 |
CanTransmitSinglePacket(canPacketData, canIdx, deviceID);
|
517 |
}
|
518 |
} /*** end of CanTransmitPacket ***/
|
519 |
|
520 |
|
521 |
/************************************************************************************//** |
522 |
** \brief Receives a communication interface packet if one is present.
|
523 |
** \param data Pointer to byte array where the data is to be stored.
|
524 |
** \return Length of message (if the message is invalid, the length will be 0).
|
525 |
**
|
526 |
****************************************************************************************/
|
527 |
blt_int8u CanReceivePacket(blt_int8u *data) |
528 |
{ |
529 |
blt_int32u rxMsgId; |
530 |
blt_bool result = BLT_FALSE; |
531 |
blt_int8u length = 0;
|
532 |
|
533 |
static blt_int8u readData[BOOT_COM_RX_MAX_DATA];
|
534 |
static blt_int8u receivedLen = 0; |
535 |
static blt_int8u lastLen = 0; |
536 |
static blt_int8u toReceive = 0; |
537 |
blt_int8u canData[8];
|
538 |
blt_int8u restLen; |
539 |
blt_int8u canLength; |
540 |
blt_int8u idx; |
541 |
|
542 |
blt_int32u compID; |
543 |
#if (BOOT_GATE_CAN_ENABLE > 0) |
544 |
if (commandSend == BLT_TRUE) {
|
545 |
compID = (blt_int32u)BOOT_COM_CAN_TX_MSG_ID; |
546 |
} else {
|
547 |
#endif /* BOOT_GATE_CAN_ENABLE > 0 */ |
548 |
compID = (blt_int32u)BOOT_COM_CAN_RX_MSG_ID; |
549 |
#if (BOOT_GATE_CAN_ENABLE > 0) |
550 |
} |
551 |
#endif /* BOOT_GATE_CAN_ENABLE > 0 */ |
552 |
|
553 |
/* check if a new message was received or is more to come */
|
554 |
while ((CANx->RF0R&(blt_int32u)0x00000003) > 0 || receivedLen < toReceive) |
555 |
{ |
556 |
/* wait for a transmission if required */
|
557 |
while (receivedLen < toReceive && (CANx->RF0R&(blt_int32u)0x00000003) == 0) { |
558 |
/* keep the watchdog happy */
|
559 |
CopService(); |
560 |
} |
561 |
|
562 |
/* read out the message identifier */
|
563 |
rxMsgId = (blt_int32u)0x000007FF & (CANx->sFIFOMailBox[0].RIR >> 21); |
564 |
/* is this the packet identifier */
|
565 |
if (rxMsgId == compID)
|
566 |
{ |
567 |
result = BLT_TRUE; |
568 |
|
569 |
/* save length */
|
570 |
canLength = (blt_int8u)0x0F & CANx->sFIFOMailBox[0].RDTR; |
571 |
/* store the received packet data */
|
572 |
canData[0] = (blt_int8u)0xFF & CANx->sFIFOMailBox[0].RDLR; |
573 |
canData[1] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDLR >> 8); |
574 |
canData[2] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDLR >> 16); |
575 |
canData[3] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDLR >> 24); |
576 |
canData[4] = (blt_int8u)0xFF & CANx->sFIFOMailBox[0].RDHR; |
577 |
canData[5] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDHR >> 8); |
578 |
canData[6] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDHR >> 16); |
579 |
canData[7] = (blt_int8u)0xFF & (CANx->sFIFOMailBox[0].RDHR >> 24); |
580 |
|
581 |
#if (CAN_DEBUG > 0) |
582 |
if ((receivedLen == 0 && (rxMsgId & (blt_int32u)BOOT_COM_CAN_MSG_SUBSEQUENT) != 0) || |
583 |
(receivedLen > 0 && (rxMsgId & (blt_int32u)BOOT_COM_CAN_MSG_SUBSEQUENT) == 0)) { |
584 |
blinkSOS(4);
|
585 |
msleep(500);
|
586 |
visualizeByte(toReceive, 1);
|
587 |
msleep(500);
|
588 |
visualizeByte(receivedLen, 1);
|
589 |
msleep(500);
|
590 |
visualizeData((blt_int8u*)&rxMsgId, 2, 1); |
591 |
msleep(500);
|
592 |
blinkSOSinf(); |
593 |
} |
594 |
#endif /* CAN_DEBUG > 0 */ |
595 |
|
596 |
/* if this is the first transmission of this packet */
|
597 |
if (receivedLen == 0) { |
598 |
/* abort if the message was meant for someone else */
|
599 |
blt_int32u deviceID = (((blt_int32u)canData[3]) << 24) | \ |
600 |
(((blt_int32u)canData[2]) << 16) | \ |
601 |
(((blt_int32u)canData[1]) << 8) | \ |
602 |
(((blt_int32u)canData[0]));
|
603 |
#if (BOOT_GATE_ENABLE > 0) |
604 |
if ((commandSend == BLT_TRUE && deviceID == 0) || |
605 |
(commandSend != BLT_TRUE && (deviceID == (blt_int32u)BOOT_COM_DEVICE_ID) || deviceID == (blt_int32u)BOOT_COM_DEVICE_LEGACY_ID)) { |
606 |
#else
|
607 |
if (deviceID == (blt_int32u)BOOT_COM_DEVICE_ID) {
|
608 |
#endif
|
609 |
/* store length of the packet */
|
610 |
toReceive = canData[4];
|
611 |
lastLen = canData[4];
|
612 |
idx = 5;
|
613 |
|
614 |
/* modify the listening address for filtering of subsequent transmissions */
|
615 |
compID |= (blt_int32u)BOOT_COM_CAN_MSG_SUBSEQUENT; |
616 |
} else {
|
617 |
/* release FIFO0 */
|
618 |
CANx->RF0R |= CAN_BIT_RFOM0; |
619 |
break;
|
620 |
} |
621 |
} |
622 |
/* if this is a subsequent transmission of a packet */
|
623 |
else {
|
624 |
/* store rest length and check if possible */
|
625 |
restLen = canData[0];
|
626 |
#if (CAN_DEBUG > 0) |
627 |
if (restLen != toReceive-receivedLen ||
|
628 |
canLength > restLen+1 ||
|
629 |
lastLen-restLen != ((lastLen==toReceive) ? 3 : 7)) { |
630 |
/* transmission has been lost */
|
631 |
blinkSOS(2);
|
632 |
msleep(500);
|
633 |
visualizeData((blt_int8u*)&rxMsgId, 4, 1); |
634 |
msleep(500);
|
635 |
visualizeByte(toReceive, 1);
|
636 |
msleep(500);
|
637 |
visualizeByte(receivedLen, 1);
|
638 |
msleep(500);
|
639 |
visualizeByte(lastLen, 1);
|
640 |
msleep(500);
|
641 |
visualizeByte(restLen, 1);
|
642 |
msleep(500);
|
643 |
visualizeByte(canLength, 1);
|
644 |
msleep(500);
|
645 |
visualizeData(readData, receivedLen, 1);
|
646 |
blinkSOSinf(); |
647 |
} |
648 |
#endif /* CAN_DEBUG > 0 */ |
649 |
lastLen = restLen; |
650 |
idx = 1;
|
651 |
} |
652 |
|
653 |
/* store the payload */
|
654 |
for (; idx < canLength; idx++) {
|
655 |
readData[receivedLen] = canData[idx]; |
656 |
receivedLen++; |
657 |
} |
658 |
|
659 |
/* release FIFO0 */
|
660 |
CANx->RF0R |= CAN_BIT_RFOM0; |
661 |
|
662 |
/* send acknowledgement */
|
663 |
CANx->sTxMailBox[0].TIR &= CAN_BIT_TXRQ;
|
664 |
CANx->sTxMailBox[0].TIR |= ((rxMsgId | (blt_int32u)BOOT_COM_CAN_MSG_ACK) << 21); |
665 |
CANx->sTxMailBox[0].TDTR = 1; |
666 |
CANx->sTxMailBox[0].TDLR = (((blt_int32u)0 << 24) | \ |
667 |
((blt_int32u)0 << 16) | \ |
668 |
((blt_int32u)0 << 8) | \ |
669 |
((blt_int32u)(toReceive-receivedLen))); |
670 |
CANx->sTxMailBox[0].TDHR = (((blt_int32u)0 << 24) | \ |
671 |
((blt_int32u)0 << 16) | \ |
672 |
((blt_int32u)0 << 8) | \ |
673 |
((blt_int32u)0));
|
674 |
|
675 |
/* request the start of message transmission */
|
676 |
CANx->sTxMailBox[0].TIR |= CAN_BIT_TXRQ;
|
677 |
/* wait for transmit completion */
|
678 |
while ((CANx->TSR&CAN_BIT_TME0) == 0) |
679 |
{ |
680 |
/* keep the watchdog happy */
|
681 |
CopService(); |
682 |
} |
683 |
|
684 |
/* check if full package has been received */
|
685 |
if (receivedLen == toReceive) {
|
686 |
#if (BOOT_GATE_CAN_ENABLE > 0) |
687 |
commandSend = BLT_FALSE; |
688 |
#endif /* BOOT_GATE_CAN_ENABLE > 0 */ |
689 |
for (idx = 0; idx < toReceive; idx++) { |
690 |
data[idx] = readData[idx]; |
691 |
} |
692 |
length = toReceive; |
693 |
/* reset static variables */
|
694 |
receivedLen = 0;
|
695 |
toReceive = 0;
|
696 |
break;
|
697 |
} else {
|
698 |
#if (CAN_DEBUG > 0) |
699 |
if (receivedLen > toReceive) {
|
700 |
/* something strange happened */
|
701 |
blinkSOS(3);
|
702 |
msleep(500);
|
703 |
visualizeByte(toReceive, 1);
|
704 |
msleep(500);
|
705 |
visualizeByte(receivedLen, 1);
|
706 |
blinkSOSinf(); |
707 |
} |
708 |
#endif /* CAN_DEBUG > 0 */ |
709 |
length = 0;
|
710 |
} |
711 |
} else {
|
712 |
/* release FIFO0 */
|
713 |
CANx->RF0R |= CAN_BIT_RFOM0; |
714 |
} |
715 |
} |
716 |
|
717 |
return length;
|
718 |
} /*** end of CanReceiveSinglePacket ***/
|
719 |
|
720 |
|
721 |
/************************************************************************************//** |
722 |
** \brief Receives some communication interface packets if they are present.
|
723 |
** \param data Pointer to byte array where the data is to be stored.
|
724 |
** \return Length of message (if the message is invalid, the length will be 0).
|
725 |
**
|
726 |
****************************************************************************************/
|
727 |
#if (0) |
728 |
blt_int8u CanReceivePacket(blt_int8u *data) |
729 |
{ |
730 |
static blt_int8u canPacketData[8]; |
731 |
static blt_int8u canData[BOOT_COM_RX_MAX_DATA];
|
732 |
static blt_int8u receivedLength = 0; |
733 |
static blt_int8u toReceive = 0; |
734 |
|
735 |
// get CAN packet
|
736 |
blt_int8u len = CanReceiveSinglePacket(canPacketData); |
737 |
|
738 |
// check, if packet has been received
|
739 |
if (len == 0) { |
740 |
return 0; |
741 |
} |
742 |
|
743 |
// if it's the first packet of a flow, save data length
|
744 |
blt_int8u startRead = 0;
|
745 |
if (receivedLength == 0) { |
746 |
toReceive = canPacketData[0];
|
747 |
startRead = 1;
|
748 |
} |
749 |
|
750 |
// copy CAN packet data into complete data packet
|
751 |
blt_int8u canIdx = 0;
|
752 |
while (receivedLength < toReceive && canIdx < 8) { |
753 |
canData[receivedLength] = canPacketData[canIdx]; |
754 |
receivedLength++; |
755 |
canIdx++; |
756 |
} |
757 |
|
758 |
// check, if data packet is finished
|
759 |
if (receivedLength == toReceive) {
|
760 |
receivedLength = 0;
|
761 |
CpuMemCopy((blt_int32u)data, (blt_int32u)&canData[0], toReceive);
|
762 |
return toReceive;
|
763 |
} else {
|
764 |
return 0; |
765 |
} |
766 |
|
767 |
|
768 |
} /*** end of CanReceivePacket ***/
|
769 |
#endif
|
770 |
#endif /* BOOT_COM_CAN_ENABLE > 0 || BOOT_GATE_CAN_ENABLE > 0 */ |
771 |
|
772 |
|
773 |
/*********************************** end of can.c **************************************/
|