Re-orginized led and nvram related code, for generic target.
/*
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
*/
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#include <stdlib.h>
#include <time.h>
#include <pthread.h>
#include <applicfg.h>
#include <timerhw.h>
#include <linuxCan.h>
#include "def.h"
#include "can.h"
#include "canOpenDriver.h"
#include "sdo.h"
#include "pdo.h"
#include "init.h"
#include "timer.h"
#include "lifegrd.h"
#include "nmtSlave.h"
// Adlink 7841 or Peak PCI/CAN board
// ---------------------------------
// Baudrate values for Peak board :
// CAN_BAUD_1M CAN_BAUD_500K CAN_BAUD_250K CAN_BAUD_125K CAN_BAUD_100K CAN_BAUD_50K
// CAN_BAUD_20K CAN_BAUD_10K CAN_BAUD_5K
#ifdef CAN_BAUD_250K
# define BAUDRATE CAN_BAUD_250K
#else
// Appli have been compiled for Adlink-arbraca. Baudrate not used
# define BAUDRATE 0
#endif
s_BOARD board = {"1", BAUDRATE};
// The variables sent or updated by PDO
// -----------------------------------------------------
extern UNS8 seconds; // Mapped at index 0x2000, subindex 0x1
extern UNS8 minutes; // Mapped at index 0x2000, subindex 0x2
extern UNS8 hours; // Mapped at index 0x2000, subindex 0x3
extern UNS8 day; // Mapped at index 0x2000, subindex 0x4
extern UNS32 canopenErrNB; // Mapped at index 0x6000, subindex 0x0
extern UNS32 canopenErrVAL; // Mapped at index 0x6001, subindex 0x0
// Required definition variables
// -----------------------------
// The variables that you should define for debugging.
// They are used by the macro MSG_ERR and MSG_WAR in applicfg.h
// if the node is a slave, they can be mapped in the object dictionnary.
// if not null, allow the printing of message to the console
// Could be managed by PDO
UNS8 printMsgErrToConsole = 1;
UNS8 printMsgWarToConsole = 1;
/*************************User's variables declaration**************************/
struct tm date;
struct tm *ptrdate;
struct tm date_prec;
time_t tme;
UNS8 lastSecond;
e_nodeState lastState;
pthread_t threadRcvMsg;
pthread_t threadHeartbeatAndSDO;
UNS8 sendingError = 0;
/******************************prototypes*****************************/
/* You *must* have these 2 functions in your code*/
void heartbeatError(UNS8 heartbeatID);
void SD0timeoutError(UNS8 bus_id, UNS8 line);
UNS8 scanSDOtimeout(void);
void preOperational(void);
void operational(void);
void stopped(void);
void waitMessage(void);
void waitMessage_heartbeat(void);
/*********************************************************************/
void heartbeatError(UNS8 heartbeatID)
{
MSG_ERR(0x1F00, "!!! No heart beat received from node : ", heartbeatID);
}
/*****************************************************************************/
void SD0timeoutError (UNS8 bus_id, UNS8 line)
{
// Informations on what occurs are in transfers[bus_id][line]....
// See scanSDOtimeout() in sdo.c
}
/*********************************** THREADS **********************************/
//------------------------------------------------------------------------------
// Wait for a received message
void waitMessage( void )
{
while (1) {
receiveMsgHandler(0); // blocked until new message
}
}
//------------------------------------------------------------------------------
// Heartbeat Manager (sending and receiving) and test SDO timeout
void heartbeatAndSDO(void)
{
while (1) {
heartbeatMGR();
// Check if some SDO response are missing
scanSDOtimeout();
// Sleep 10 ms
usleep(10000);
}
}
/*********************************************************************/
void preOperational( void )
{
/* Init some variables */
canopenErrNB = 0;
canopenErrVAL = 0;
}
/********************************************************************/
void operational( void )
{
/* read systeme date */
tme = time (&tme);
ptrdate = gmtime(&tme);
date = *ptrdate;
/* Update the dictionary */
day = date.tm_mday;
hours = date.tm_hour;
minutes = date.tm_min;
seconds = date.tm_sec;
if ( date_prec.tm_min != date.tm_min ) {
MSG_WAR(0x3F00, "event : minutes change -> node decides to send it. Value : ", date.tm_min);
sendPDOevent( 0, &minutes );
date_prec = date;
}
if (canopenErrNB == 0)
sendingError = 0;
if (lastSecond != seconds) {
MSG_WAR (0x3F50, "Seconds = ", seconds);
if ((seconds == 50) && (sendingError == 0))
{
MSG_ERR(0x1F55, "DEMO of ERROR. Sent by PDO. Value : ", 0xABCD);
sendingError = 1;
}
if (canopenErrNB) {
MSG_WAR(0x3F56, "ERROR nb : ", canopenErrNB);
}
lastSecond = seconds;
}
}
/*****************************************************************************/
void stopped( void )
{
}
void help()
{
printf("**************************************************************\n");
printf("* AppliSlave *\n");
printf("* [-b b] *\n");
printf("* *\n");
printf("* b : bus [default 1] *\n");
printf("* *\n");
printf("* This exemple run AppliSlave on bus 0 *\n");
printf("* AppliSlave -b 0 *\n");
printf("* *\n");
printf("**************************************************************\n");
}
/****************************************************************************/
/*************************** MAIN *****************************************/
/****************************************************************************/
int main(int argc,char **argv)
{
HANDLE ok;
UNS32 * pSize;
UNS32 size;
pSize = &size;
char c;
extern char *optarg;
while ((c = getopt(argc, argv, "-b:")) != EOF)
{
switch(c)
{
case 'b' :
if (optarg[0] == 0)
{
help();
exit(1);
}
board.busname = optarg;
break;
default:
help();
exit(1);
}
}
// Global initialization before launching the threads. (also done in init mode.
/* Defining the node Id */
setNodeId(0x05);
MSG_WAR(0x3F06, "My node ID is : ", getNodeId());
initCANopenMain();
initTimer( );
heartbeatInit();
initResetMode();
/* Launch the thread to receive the messages */
pthread_create( &threadRcvMsg, NULL, (void *)&waitMessage, NULL);
/* Launch the thread to manage the heartbeat */
pthread_create( &threadHeartbeatAndSDO, NULL, (void *)&heartbeatAndSDO, NULL);
/* open the communication with the board */
ok = f_can_open(& board);
if (ok == NULL) {
MSG_ERR(0x1F02,"Unable to open the board", 0);
MSG_ERR(0x1F03,"Edit includeMakefileLinux to verify that the application is configured for the good board", 0);
exit (-1);
}
else {
MSG_WAR(0x3F03, "Board 1 opened ", 0);
/* slave's state initialization */
setState(Initialisation);
lastState = Unknown_state;
while(1) { /* slave's state machine */
switch( getState() ) {
case Initialisation:
if (lastState != getState())
MSG_WAR(0X3F05, "I am in INITIALISATION mode ", 0);
/* Defining the node Id */
setNodeId(0x05);
MSG_WAR(0x3F06, "My node ID is : ", getNodeId());
// Node identity ?
{
UNS8 *data;
UNS8 size;
UNS8 dataType;
// Manufacturer Device name (default = empty string)
getODentry(0x1008, 0x0, (void **)&data, &size, &dataType, 0);
MSG_WAR(0x3F09, data, 0);
// Manufacturer Hardware version. (default = compilation. date)
getODentry(0x1009, 0x0, (void **)&data, &size, &dataType, 0);
MSG_WAR(0x3F09, data, 0);
// Manufacturer Software version. (default = compilation. time)
getODentry(0x100A, 0x0, (void **)&data, &size, &dataType, 0);
MSG_WAR(0x3F09, data, 0);
}
initCANopenMain();
initTimer( );
heartbeatInit();
initResetMode();
/* the slave send an NMT trame to say to the master
that it is going to enter into operational state
In fact, you must send the boot-up when you are in
operational mode !
*/
/* change automatically into pre_operational state */
lastState = getState();
setState(Pre_operational);
break;
case Pre_operational:
if (lastState != getState())
{
MSG_WAR(0X3F11, "I am in PRE_OPERATIONAL mode ", 0);
// Some stuff to do when the node enter in pre-operational mode
initPreOperationalMode();
}
if (lastState == Initialisation)
slaveSendBootUp(0);
lastState = getState();
preOperational( );
break;
case Operational:
if (lastState != getState())
MSG_WAR(0X3F12, "I am in OPERATIONAL mode ", 0);
lastState = getState();
operational( );
break;
case Stopped:
if (lastState != getState())
MSG_WAR(0X3F13, "I am in STOPPED mode", 0);
lastState = getState();
stopped( );
break;
}//end switch case
// Sleep 10 ms
usleep(10000);
}//end while
}//end else
return 0;
}