examples/gene_SYNC_HCS12/appli.c
author fbeaulier
Tue, 16 Aug 2011 14:15:52 +0200
changeset 663 70fc3603e36f
parent 378 d2abf6c8c27b
child 801 32d146b64a35
permissions -rwxr-xr-x
timers_unix.c : remove sigint and sigterm catch
sdo : Allow multiple servers
The sdo transfer struct is not anymore referenced by server's node id but by
client or server number in the OD. Node id is not relevant in SDO transfert.
/*
This file is part of CanFestival, a library implementing CanOpen Stack. 

Copyright (C): Edouard TISSERANT and Francis DUPIN

See COPYING file for copyrights details.

This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.

This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
Lesser General Public License for more details.

You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
*/

// Uncomment if you don't need console informations.
#define DEBUG_WAR_CONSOLE_ON
#define DEBUG_ERR_CONSOLE_ON

#include <stddef.h> /* for NULL */

#include <asm-m68hc12/portsaccess.h>
#include <asm-m68hc12/ports_def.h>
#include <asm-m68hc12/ports.h>
#include  <interrupt.h>

#include "../include/data.h"
#include <applicfg.h>



#include "../include/hcs12/candriver.h"
#include "../include/hcs12/canOpenDriver.h"
#include "../include/def.h"
#include "../include/can.h"
#include "../include/objdictdef.h"
#include "../include/objacces.h"
#include "../include/sdo.h"
#include "../include/pdo.h"
#include "../include/timer.h"
#include "../include/lifegrd.h"
#include "../include/sync.h"

#include "../include/nmtSlave.h"

// File created by the GUI 
#include "objdict.h"





// HCS12 configuration
// -----------------------------------------------------

enum E_CanBaudrate 
{
   CAN_BAUDRATE_250K,
   CAN_BAUDRATE_500K,
   CAN_BAUDRATE_1M,
};


const canBusTime CAN_Baudrates[] =
{
   {
      1,  /* clksrc: Use the bus clock : 16 MHz, the freq. of the quartz's board        */
      3,  /* brp :  chose btw 0 and 63 (6 bits).  freq time quantum = 16MHz / (brp + 1) */
      0,  /* sjw : chose btw 0 and 3 (2 bits). Sync on (sjw + 1 ) time quantum          */
      0,  /* samp : chose btw 0 and 3 (2 bits) (samp + 1 ) samples per bit              */
      1,  /* tseg2 : chose btw 0 and 7 (3 bits) Segment 2 width = (tseg2 + 1)  tq       */
     12,  /* tseg1 : chose btw 0 and 15 (4 bits) Segment 1 width = (tseg1 + 1)  tq      */

      /*
      With these values, 
      - The width of the bit time is 16 time quantum :
          - 1 tq for the SYNC segment (could not be modified)
          - 13 tq for the TIME 1 segment (tseg1 = 12)
          - 2 tq for the TIME 2 segment (tseg2 = 1)
      - Because the bus clock of the MSCAN is 16 MHZ, and the 
        freq of the time quantum is 4 MHZ (brp = 3+1), and  there are 16 tq in the bit time,
        so the freq of the bit time is 250 kHz.
      */
   },

   {
      1,  /* clksrc: Use the bus clock : 16 MHz, the freq. of the quartz's board        */
      1,  /* brp :  chose btw 0 and 63 (6 bits).  freq time quantum = 16MHz / (brp + 1) */
      0,  /* sjw : chose btw 0 and 3 (2 bits). Sync on (sjw + 1 ) time quantum          */
      0,  /* samp : chose btw 0 and 3 (2 bits) (samp + 1 ) samples per bit              */
      1,  /* tseg2 : chose btw 0 and 7 (3 bits) Segment 2 width = (tseg2 + 1)  tq       */
     12,  /* tseg1 : chose btw 0 and 15 (4 bits) Segment 1 width = (tseg1 + 1)  tq      */

      /*
      With these values, 
      - The width of the bit time is 16 time quantum :
          - 1 tq for the SYNC segment (could not be modified)
          - 13 tq for the TIME 1 segment (tseg1 = 12)
          - 2 tq for the TIME 2 segment (tseg2 = 1)
      - Because the bus clock of the MSCAN is 16 MHZ, and the 
        freq of the time quantum is 8 MHZ (brp = 1+1), and  there are 16 tq in the bit time,
        so the freq of the bit time is 500 kHz.
      */
    },

	{
      1,  /* clksrc: Use the bus clock : 16 MHz, the freq. of the quartz's board        */
      1,  /* brp :  chose btw 0 and 63 (6 bits).  freq time quantum = 16MHz / (brp + 1) */
      0,  /* sjw : chose btw 0 and 3 (2 bits). Sync on (sjw + 1 ) time quantum          */
      0,  /* samp : chose btw 0 and 3 (2 bits) (samp +MSG_WAR(0x3F33, "Je suis le noeud ", getNodeId());    1 ) samples per bit              */
      1,  /* tseg2 : chose btw 0 and 7 (3 bits) Segment 2 width = (tseg2 + 1)  tq       */
      4,  /* tseg1 : chose btw 0 and 15 (4 bits) Segment 1 width = (tseg1 + 1)  tq      */

      /*
      With these values, 
      - The width of the bit time is 16 time quantum :
          - 1 tq for the SYNC segment (could not be modified)
          - 5 tq for the TIME 1 segment (tseg1 = 4)
          - 2 tq for the TIME 2 segment (tseg2 = 1)
      - Because the bus clock of the MSCAN is 16 MHZ, and the 
        freq of the time quantum is 8 MHZ (brp = 1+1), and  there are 8 tq in the bit time,
        so the freq of the bit time is 1 MHz.
      */
    }
};




/**************************prototypes*****************************************/

//Init can bus and Canopen
void initCanopencapteur (void);
// Init the sensor
void initSensor(void);
void initPortB(void);
void initPortH(void);


//------------------------------------------------------------------------------
//Initialisation of the port B for the leds.
void initPortB(void)
{
  // Port B is output
  IO_PORTS_8(DDRB)= 0XFF;
  // RAZ
  IO_PORTS_8(PORTB) = 0xFF;
}

//------------------------------------------------------------------------------
// Init of port H to choose the CAN rate by switch, and the nodeId
void initPortH(void)
{
  // Port H is input
  IO_PORTS_8(DDRH)= 0X00;
  // Enable pull device
  IO_PORTS_8(PERH) = 0XFF;
  // Choose the pull-up device
  IO_PORTS_8(PPSH) = 0X00;
}

//------------------------------------------------------------------------------
void initSensor(void)
{ 
  UNS8 baudrate = 0; 
  UNS8 nodeId = 0; 
  // Init led control
  initPortB(); 
  IO_PORTS_8(PORTB) &= ~ 0x01; //One led ON
  initPortH();
  
    /* Defining the node Id */
  // Uncomment to have a fixed nodeId
  //setNodeId(&gene_SYNC_Data, 0x03);
  
  // Comment below to have a fixed nodeId
  nodeId = ~(IO_PORTS_8(PTH)) & 0x3F;
  if (nodeId == 0) {
  	MSG_WAR(0x3F33, "Using default nodeId :  ", getNodeId(&gene_SYNC_Data));
  }
  else	
    setNodeId(&gene_SYNC_Data, nodeId);
  
  MSG_WAR(0x3F33, "My nodeId is :  ", getNodeId(&gene_SYNC_Data));
  
  canBusInit bi0 = {
    0,    /* no low power                 */ 
    0,    /* no time stamp                */
    1,    /* enable MSCAN                 */
    0,    /* clock source : oscillator (In fact, it is not used)   */
    0,    /* no loop back                 */
    0,    /* no listen only               */
    0,    /* no low pass filter for wk up */
	CAN_Baudrates[CAN_BAUDRATE_250K],
    {
      0x00,    /* Filter on 16 bits. See Motorola Block Guide V02.14 fig 4-3 */
      0x00, 0xFF, /* filter 0 hight accept all msg      */
      0x00, 0xFF, /* filter 0 low accept all msg        */
      0x00, 0xFF, /* filter 1 hight filter all of  msg  */
      0x00, 0xFF, /* filter 1 low filter all of  msg    */
      0x00, 0xFF, /* filter 2 hight filter most of  msg */
      0x00, 0xFF, /* filter 2 low filter most of  msg   */
      0x00, 0xFF, /* filter 3 hight filter most of  msg */
      0x00, 0xFF, /* filter 3 low filter most of  msg   */
    }
  };
  
  //Init the HCS12 microcontroler for CanOpen 
  initHCS12();
   
  // Chose the CAN rate (On our board, whe have switch for all purpose)
  //  7    8
  //  ON   ON   => 1000 kpbs
  //  OFF  ON   =>  500 kpbs
  //  ON   OFF  =>  250 kpbs
  
  baudrate = ~(IO_PORTS_8(PTH)) & 0xC0;
  
  // Uncomment to have a fixed baudrate of 250 kbps
  //baudrate = 1;
  
  switch (baudrate) {
  case 0x40:
    bi0.clk = CAN_Baudrates[CAN_BAUDRATE_250K];
    MSG_WAR(0x3F30, "CAN 250 kbps ", 0);
    break;
  case 0x80:
    bi0.clk = CAN_Baudrates[CAN_BAUDRATE_500K];
    MSG_WAR(0x3F31, "CAN 500 kbps ", 0);
    break;
  case 0xC0:
    bi0.clk = CAN_Baudrates[CAN_BAUDRATE_1M];
    MSG_WAR(0x3F31, "CAN 1000 kbps ", 0);
    break;   
  default:
    bi0.clk = CAN_Baudrates[CAN_BAUDRATE_250K];
    MSG_WAR(0x2F32, "CAN BAUD RATE NOT DEFINED => 250 kbps ", 0);
  }

   

  MSG_WAR(0x3F33, "SYNC signal generator ", 0);

  canInit(CANOPEN_LINE_NUMBER_USED, bi0);  //initialize filters...
  initTimer(); // Init hcs12 timer used by CanFestival. (see timerhw.c)
  unlock(); // Allow interruptions  
}






//$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$
// FUNCTIONS WHICH ARE PART OF CANFESTIVAL and *must* be implemented here.

//------------------------------------------------------------------------------
void gene_SYNC_heartbeatError(CO_Data* d,  UNS8 heartbeatID )
{
  
  MSG_ERR(0x1F00, "HeartBeat not received from node : ", heartbeatID);
}

//------------------------------------------------------------------------------
void gene_SYNC_initialisation(CO_Data* d)
{  
  MSG_WAR (0x3F00, "Entering in INIT ", 0); 
  initSensor();  

  IO_PORTS_8(PORTB) &= ~ 0x01; // led  0         : ON
  IO_PORTS_8(PORTB) |=   0x0E; // leds 1, 2, 3   : OFF
  
}


//------------------------------------------------------------------------------
void gene_SYNC_preOperational(CO_Data* d)
{
  MSG_WAR (0x3F01, "Entering in PRE-OPERATIONAL ", 0); 
  IO_PORTS_8(PORTB) &= ~ 0x03; // leds 0, 1      : ON
  IO_PORTS_8(PORTB) |=   0x0C; // leds 2, 3      : OFF
    /* default values for the msg CAN filters */
  /* Accept all */
    {
   	  canBusFilterInit filterConfiguration = 
   	  {
   	  0x01,  /* Filter on 16 bits. See Motorola Block Guide V02.14 */
      /*canidarx, canidmrx */                        
      0x00, 0xFF,          /* filter 0 */
      0x00, 0xFF, 		   /* filter 0 */
      0x00, 0xFF,          /* filter 1 */
      0x00, 0xFF, 		   /* filter 1 */
      0x00, 0xFF,          /* filter 2 */
      0x00, 0xFF, 		   /* filter 2 */
      0x00, 0xFF,          /* filter 3 */
      0x00, 0xFF, 	       /* filter 3 */
   	 };
   	 canChangeFilter(CANOPEN_LINE_NUMBER_USED, filterConfiguration);
   } 
   // Reset the automatic change by SDO
   applyDownloadedFilters = 0;
   
}


//------------------------------------------------------------------------------
void gene_SYNC_operational(CO_Data* d)
{ 
   MSG_WAR (0x3F02, "Entering in OPERATIONAL ", 0); 
   IO_PORTS_8(PORTB) &= ~ 0x07; // leds 0, 1, 2   : ON
   IO_PORTS_8(PORTB) |=   0x08; // leds 3         : OFF
   
   // Filtering the CAN received msgs.
   // 2 ways
   // First :applying an automatic filter
   // Second : The values of the filtering registers are mapped in the object dictionary,
   // So that a filtering configuration can be downloaded by SDO in pre-operational mode
   	
   	if (applyDownloadedFilters == 0) {// No downloaded configuration to apply
  		UNS16 accept1 = 0x0000; // Accept NMT
   		UNS16 mask1 = 0x0FFF;   // Mask NMT
   		UNS16 accept2 = 0xE000; // Accept NMT error control (heartbeat, nodeguard)
   		UNS16 mask2 = 0x0FFF;   // Mask NMT error control (heartbeat, nodeguard)
   		
   		canBusFilterInit filterConfiguration = 
				{// filters 3 and 4 not used, so configured like filter 1.
   		  	0x01,  /* Filter on 16 bits. See Motorola Block Guide V02.14 */
     	    /*canidarx, canidmrx */                        
      		(UNS8)(accept1 >> 8), (UNS8)(mask1 >> 8),    /* filter 1 id10...3*/
      		(UNS8)accept1       , (UNS8)mask1, 		       /* filter 1 id2 ... */
      		(UNS8)(accept2 >> 8), (UNS8)(mask2 >> 8),    /* filter 2 id10...3*/
      		(UNS8)accept2       , (UNS8)mask2, 		       /* filter 2 id2 ... */
       		(UNS8)(accept1 >> 8), (UNS8)(mask1 >> 8),    /* filter 3 id10...3*/
      		(UNS8)accept1       , (UNS8)mask1, 		       /* filter 3 id2 ... */
      		(UNS8)(accept1 >> 8), (UNS8)(mask1 >> 8),    /* filter 4 id10...3*/
      		(UNS8)accept1       , (UNS8)mask1 		       /* filter 4 id2 ... */     	
   	 	 	};
   	 		canChangeFilter(CANOPEN_LINE_NUMBER_USED, filterConfiguration);
   	 		MSG_WAR (0x3F03, "Internal CAN Rcv filter applied ", 0); 
    	} 
   	  else { // Apply filters downnloaded
   			canBusFilterInit filterConfiguration = 
				{// filters 3 and 4 not used, so configured like filter 1.
   		  	0x01,  /* Filter on 16 bits. See Motorola Block Guide V02.14 */
     	    /*canidarx, canidmrx */                        
      		(UNS8)( acceptanceFilter1>> 8), (UNS8)(mask1 >> 8),    /* filter 1 id10...3*/
      		(UNS8)acceptanceFilter1       , (UNS8)mask1, 		       /* filter 1 id2 ... */
      		(UNS8)(acceptanceFilter2 >> 8), (UNS8)(mask2 >> 8),     /* filter 2 id10...3*/
      		(UNS8)acceptanceFilter2       , (UNS8)mask2, 		       /* filter 2 id2 ... */
       		(UNS8)(acceptanceFilter3 >> 8), (UNS8)(mask3 >> 8),    /* filter 3 id10...3*/
      		(UNS8)acceptanceFilter3       , (UNS8)mask3, 		       /* filter 3 id2 ... */
      		(UNS8)(acceptanceFilter4 >> 8), (UNS8)(mask4 >> 8),    /* filter 4 id10...3*/
      		(UNS8)acceptanceFilter4       , (UNS8)mask4 		       /* filter 4 id2 ... */     	
   	 	 	};
   	 		canChangeFilter(CANOPEN_LINE_NUMBER_USED, filterConfiguration);  		
   	 		MSG_WAR (0x3F04, "Downloaded CAN Rcv filter applied ", 0); 
   	}
}

//------------------------------------------------------------------------------
void gene_SYNC_stopped(CO_Data* d)
{
  MSG_WAR (0x3F02, "Entering in STOPPED ", 0); 
  IO_PORTS_8(PORTB) |=   0x0E; // leds 1, 2, 3, 4   : OFF
}

// End functions which are part of Canfestival
//$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$


/******************************************************************************/
/********************************* MAIN ***************************************/
/******************************************************************************/

 
UNS8 main (void)
{

  MSG_WAR(0x3F34, "Entering in the main ", 0);
  //----------------------------- INITIALISATION --------------------------------
  gene_SYNC_Data.heartbeatError = gene_SYNC_heartbeatError;
  gene_SYNC_Data.initialisation = gene_SYNC_initialisation;
  gene_SYNC_Data.preOperational = gene_SYNC_preOperational;
  gene_SYNC_Data.preOperational = gene_SYNC_operational;
  gene_SYNC_Data.stopped = gene_SYNC_stopped;

  
  /* Put the node in Initialisation mode */
  MSG_WAR(0x3F35, "Will entering in INIT ", 0);
  setState(&gene_SYNC_Data, Initialisation);

  //----------------------------- START -----------------------------------------
  /* Put the node in pre-operational mode */
  //MSG_WAR(0x3F36, "va passer en pre-op", 0);
  //setState(&gene_SYNC_Data, Pre_operational);

	// Loop of receiving messages
  while (1) {
	Message m;
	if (f_can_receive(0, &m)) {
	  //MSG_WAR(0x3F36, "Msg received", m.cob_id);
	  lock(); // Not to have interruptions by timer, which can corrupt the data
	  canDispatch(&gene_SYNC_Data, &m);
	  unlock();
	}  
    	}

  return (0); 
}