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SOEM/test/linux/simple_test/simple_test.c

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/** \file
* \brief Example code for Simple Open EtherCAT master
*
* Usage : simple_test [ifname1]
* ifname is NIC interface, f.e. eth0
*
* This is a minimal test.
*
* (c)Arthur Ketels 2010 - 2011
*/
#include <stdio.h>
#include <string.h>
#include <inttypes.h>
#include "ethercat.h"
#define EC_TIMEOUTMON 500
char IOmap[4096];
OSAL_THREAD_HANDLE thread1;
int expectedWKC;
boolean needlf;
volatile int wkc;
boolean inOP;
uint8 currentgroup = 0;
void simpletest(char *ifname)
{
int i, j, oloop, iloop, chk;
needlf = FALSE;
inOP = FALSE;
printf("Starting simple test\n");
/* initialise SOEM, bind socket to ifname */
if (ec_init(ifname))
{
printf("ec_init on %s succeeded.\n",ifname);
/* find and auto-config slaves */
if ( ec_config_init(FALSE) > 0 )
{
printf("%d slaves found and configured.\n",ec_slavecount);
ec_config_map(&IOmap);
ec_configdc();
printf("Slaves mapped, state to SAFE_OP.\n");
/* wait for all slaves to reach SAFE_OP state */
ec_statecheck(0, EC_STATE_SAFE_OP, EC_TIMEOUTSTATE * 4);
oloop = ec_slave[0].Obytes;
if ((oloop == 0) && (ec_slave[0].Obits > 0)) oloop = 1;
if (oloop > 8) oloop = 8;
iloop = ec_slave[0].Ibytes;
if ((iloop == 0) && (ec_slave[0].Ibits > 0)) iloop = 1;
if (iloop > 8) iloop = 8;
printf("segments : %d : %d %d %d %d\n",ec_group[0].nsegments ,ec_group[0].IOsegment[0],ec_group[0].IOsegment[1],ec_group[0].IOsegment[2],ec_group[0].IOsegment[3]);
printf("Request operational state for all slaves\n");
expectedWKC = (ec_group[0].outputsWKC * 2) + ec_group[0].inputsWKC;
printf("Calculated workcounter %d\n", expectedWKC);
ec_slave[0].state = EC_STATE_OPERATIONAL;
/* send one valid process data to make outputs in slaves happy*/
ec_send_processdata();
ec_receive_processdata(EC_TIMEOUTRET);
/* request OP state for all slaves */
ec_writestate(0);
chk = 200;
/* wait for all slaves to reach OP state */
do
{
ec_send_processdata();
ec_receive_processdata(EC_TIMEOUTRET);
ec_statecheck(0, EC_STATE_OPERATIONAL, 50000);
}
while (chk-- && (ec_slave[0].state != EC_STATE_OPERATIONAL));
if (ec_slave[0].state == EC_STATE_OPERATIONAL )
{
printf("Operational state reached for all slaves.\n");
inOP = TRUE;
/* cyclic loop */
for(i = 1; i <= 10000; i++)
{
ec_send_processdata();
wkc = ec_receive_processdata(EC_TIMEOUTRET);
if(wkc >= expectedWKC)
{
printf("Processdata cycle %4d, WKC %d , O:", i, wkc);
for(j = 0 ; j < oloop; j++)
{
printf(" %2.2x", *(ec_slave[0].outputs + j));
}
printf(" I:");
for(j = 0 ; j < iloop; j++)
{
printf(" %2.2x", *(ec_slave[0].inputs + j));
}
printf(" T:%"PRId64"\r",ec_DCtime);
needlf = TRUE;
}
osal_usleep(5000);
}
inOP = FALSE;
}
else
{
printf("Not all slaves reached operational state.\n");
ec_readstate();
for(i = 1; i<=ec_slavecount ; i++)
{
if(ec_slave[i].state != EC_STATE_OPERATIONAL)
{
printf("Slave %d State=0x%2.2x StatusCode=0x%4.4x : %s\n",
i, ec_slave[i].state, ec_slave[i].ALstatuscode, ec_ALstatuscode2string(ec_slave[i].ALstatuscode));
}
}
}
printf("\nRequest init state for all slaves\n");
ec_slave[0].state = EC_STATE_INIT;
/* request INIT state for all slaves */
ec_writestate(0);
}
else
{
printf("No slaves found!\n");
}
printf("End simple test, close socket\n");
/* stop SOEM, close socket */
ec_close();
}
else
{
printf("No socket connection on %s\nExcecute as root\n",ifname);
}
}
OSAL_THREAD_FUNC ecatcheck( void *ptr )
{
int slave;
(void)ptr; /* Not used */
while(1)
{
if( inOP && ((wkc < expectedWKC) || ec_group[currentgroup].docheckstate))
{
if (needlf)
{
needlf = FALSE;
printf("\n");
}
/* one ore more slaves are not responding */
ec_group[currentgroup].docheckstate = FALSE;
ec_readstate();
for (slave = 1; slave <= ec_slavecount; slave++)
{
if ((ec_slave[slave].group == currentgroup) && (ec_slave[slave].state != EC_STATE_OPERATIONAL))
{
ec_group[currentgroup].docheckstate = TRUE;
if (ec_slave[slave].state == (EC_STATE_SAFE_OP + EC_STATE_ERROR))
{
printf("ERROR : slave %d is in SAFE_OP + ERROR, attempting ack.\n", slave);
ec_slave[slave].state = (EC_STATE_SAFE_OP + EC_STATE_ACK);
ec_writestate(slave);
}
else if(ec_slave[slave].state == EC_STATE_SAFE_OP)
{
printf("WARNING : slave %d is in SAFE_OP, change to OPERATIONAL.\n", slave);
ec_slave[slave].state = EC_STATE_OPERATIONAL;
ec_writestate(slave);
}
else if(ec_slave[slave].state > EC_STATE_NONE)
{
if (ec_reconfig_slave(slave, EC_TIMEOUTMON))
{
ec_slave[slave].islost = FALSE;
printf("MESSAGE : slave %d reconfigured\n",slave);
}
}
else if(!ec_slave[slave].islost)
{
/* re-check state */
ec_statecheck(slave, EC_STATE_OPERATIONAL, EC_TIMEOUTRET);
if (ec_slave[slave].state == EC_STATE_NONE)
{
ec_slave[slave].islost = TRUE;
printf("ERROR : slave %d lost\n",slave);
}
}
}
if (ec_slave[slave].islost)
{
if(ec_slave[slave].state == EC_STATE_NONE)
{
if (ec_recover_slave(slave, EC_TIMEOUTMON))
{
ec_slave[slave].islost = FALSE;
printf("MESSAGE : slave %d recovered\n",slave);
}
}
else
{
ec_slave[slave].islost = FALSE;
printf("MESSAGE : slave %d found\n",slave);
}
}
}
if(!ec_group[currentgroup].docheckstate)
printf("OK : all slaves resumed OPERATIONAL.\n");
}
osal_usleep(10000);
}
}
int main(int argc, char *argv[])
{
printf("SOEM (Simple Open EtherCAT Master)\nSimple test\n");
if (argc > 1)
{
/* create thread to handle slave error handling in OP */
// pthread_create( &thread1, NULL, (void *) &ecatcheck, (void*) &ctime);
osal_thread_create(&thread1, 128000, &ecatcheck, (void*) &ctime);
/* start cyclic part */
simpletest(argv[1]);
}
else
{
printf("Usage: simple_test ifname1\nifname = eth0 for example\n");
}
printf("End program\n");
return (0);
}
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