examples/AVR/Slave/main.c
author Robert Lehmann <robert.lehmann@sitec-systems.de>
Tue, 28 Jul 2015 16:36:55 +0200
changeset 793 72e9e1064432
parent 675 e5c5101c4f0b
permissions -rw-r--r--
timers_unix: Fix termination problem of WaitReceiveTaskEnd

The function pthread_kill sends the Signal thread and to the own process.
If you use this construct than the application which calls uses the
canfestival api will terminate at the call of canClose. To avoid that
use pthread_cancel instead of pthread_kill. To use the pthread_cancel call
you need to set the cancel ability in the thread function. That means
you need to call pthread_setcancelstate and pthread_setcanceltype.
For the termination of the thread at any time it is important to set the
cancel type to PTHREAD_CANCEL_ASYNCHRONOUS.
/*
This file is part of CanFestival, a library implementing CanOpen Stack.

Copyright (C): Edouard TISSERANT and Francis DUPIN
AVR Port: Andreas GLAUSER and Peter CHRISTEN

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
*/
/******************************************************************************
Project description:
Test projekt for a DS 401 slave, running on Atmel's STK500 with AT90CAN128
Short description:
  PORTA:	Inputs (Keys, low active)
  PORTB:	Outputs (LEDs, low active)
  PORTC:	Node ID (1 BCD switch, low active)

******************************************************************************/
#include "hardware.h"
#include "canfestival.h"
#include "can_AVR.h"
#include "ObjDict.h"
#include "ds401.h"

unsigned char timer_interrupt = 0;		// Set if timer interrupt eclapsed
unsigned char inputs;

// CAN
unsigned char nodeID;
unsigned char digital_input[1] = {0};
unsigned char digital_output[1] = {0};

static Message m = Message_Initializer;		// contain a CAN message

void sys_init();

// macros to handle the schedule timer
#define sys_timer			timer_interrupt
#define reset_sys_timer()		timer_interrupt = 0
#define CYCLE_TIME	        	1000     	// Sample Timebase [us]

int main(void)
{
  sys_init();                                   // Initialize system
  canInit(CAN_BAUDRATE);         		// Initialize the CANopen bus
  initTimer();                                 	// Start timer for the CANopen stack
  nodeID = read_bcd();				// Read node ID first
  setNodeId (&ObjDict_Data, nodeID);
  setState(&ObjDict_Data, Initialisation);	// Init the state

  for(;;)		                        // forever loop
  {
    if (sys_timer)	                        // Cycle timer, invoke action on every time slice
    {
      reset_sys_timer();	                // Reset timer
      digital_input[0] = get_inputs();
      digital_input_handler(&ObjDict_Data, digital_input, sizeof(digital_input));
      digital_output_handler(&ObjDict_Data, digital_output, sizeof(digital_output));
      set_outputs(digital_output[0]);

      // Check if CAN address has been changed
      if(!( nodeID == read_bcd()))
      {
        nodeID = read_bcd();                    // Save the new CAN adress
        setState(&ObjDict_Data, Stopped);         // Stop the node, to change the node ID
        setNodeId(&ObjDict_Data, nodeID);         // Now the CAN adress is changed
        setState(&ObjDict_Data, Pre_operational); // Set to Pre_operational, master must boot it again
      }
    }

    // a message was received pass it to the CANstack
    if (canReceive(&m))			// a message reveived
      canDispatch(&ObjDict_Data, &m);         // process it
    else
    {
      // Enter sleep mode
      #ifdef WD_SLEEP		// Watchdog and Sleep
      wdt_reset();
      sleep_enable();
      sleep_cpu();
      #endif				// Watchdog and Sleep
    }
  }
}

void sys_init()
/******************************************************************************
Initialize the relays, the main states and the modbus protocol stack.
INPUT	LOCK_STATES *lock_states
OUTPUT	void
******************************************************************************/
{
  OSCCAL = 0x43;                        // adjust the RC oszillator
  
  PORTA = 0xFF;	                        // Inputs (Keys, low active) with pullup
  DDRA  = 0x00;		                // 
  PORTB = 0xFF;	                        // Outputs (LEDs, low active) all 1
  DDRB  = 0xFF;		                // 
  PORTC = 0xFF;	                        // 1 BCD switch with pullup
  DDRC  = 0x00;		                // 
  PORTD = 0x2C;	                        // 2xCOM, unused, CAN, unused
  DDRD  = 0x2A;		                // All init 0 or without pullup
  PORTE = 0x00;	                        // Output
  DDRE  = 0x3C;		                // 2x not used, 2x not used
  PORTF = 0x00;	                        // Not used
  DDRF  = 0xFF;		                // All output
  PORTG = 0x00;	                        // Not used
  DDRG  = 0x1F;		                // Output for debug (only 5 pins)

// Set timer 0 for main schedule time
  TCCR0A |= 1 << WGM01 | 1 << CS01 | 1 << CS00;// Timer 0 CTC , Timer 0 mit CK/64 starten
  TIMSK0 = 1 << OCIE0A;		        // Timer Interrupts: Timer 0 Compare
  OCR0A = (unsigned char)(F_CPU / 64 * CYCLE_TIME/1000000 - 1);	// Reloadvalue for timer 0
  #ifdef WD_SLEEP		// Watchdog and Sleep
  wdt_reset();
  wdt_enable(WDTO_15MS);   	// Watchdogtimer start with 16 ms timeout
  #endif			// Watchdog and Sleep
  sei();         // Enable Interrupts
}


#ifdef  __IAR_SYSTEMS_ICC__
#pragma type_attribute = __interrupt
#pragma vector=TIMER0_COMP_vect
void TIMER0_COMP_interrupt(void)
#else	// GCC
ISR(TIMER0_COMP_vect)
#endif	// GCC
/******************************************************************************
Interruptserviceroutine Timer 2 Compare A for the main cycle
******************************************************************************/

{
  timer_interrupt = 1;	// Set flag
}