Modifs mineures.
/*
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 "data.h"
#include "sync.h"
void SyncAlarm(CO_Data* d, UNS32 id)
{
sendSYNC(d, *d->COB_ID_Sync & 0x1FFFFFFF) ;
}
// This is called when Index 0x1005 is updated.
UNS32 OnCOB_ID_SyncUpdate(CO_Data* d, const indextable * unsused_indextable, UNS8 unsused_bSubindex)
{
startSYNC(d);
}
void startSYNC(CO_Data* d)
{
RegisterSetODentryCallBack(d, 0x1005, 0, &OnCOB_ID_SyncUpdate);
RegisterSetODentryCallBack(d, 0x1006, 0, &OnCOB_ID_SyncUpdate);
if(d->syncTimer != TIMER_NONE){
stopSYNC(d);
}
if(*d->COB_ID_Sync & 0x40000000 && *d->Sync_Cycle_Period)
{
d->syncTimer = SetAlarm(
d,
0/*No id needed*/,
&SyncAlarm,
US_TO_TIMEVAL(*d->Sync_Cycle_Period),
US_TO_TIMEVAL(*d->Sync_Cycle_Period));
}
}
void stopSYNC(CO_Data* d)
{
d->syncTimer = DelAlarm(d->syncTimer);
}
/*********************************************************************/
UNS8 sendSYNC(CO_Data* d, UNS32 cob_id)
{
Message m;
UNS8 resultat ;
MSG_WAR(0x3001, "sendSYNC ", 0);
m.cob_id.w = cob_id ;
m.rtr = NOT_A_REQUEST;
m.len = 0;
resultat = (*d->canSend)(&m) ;
proceedSYNC(d, &m) ;
return resultat ;
}
/*****************************************************************************/
UNS8 proceedSYNC(CO_Data* d, Message *m)
{
MSG_WAR(0x3002, "SYNC received. Proceed. ", 0);
UNS8 pdoNum, // number of the actual processed pdo-nr.
prp_j;
const UNS8 * pMappingCount = NULL; // count of mapped objects...
// pointer to the var which is mapped to a pdo
// void * pMappedAppObject = NULL;
// pointer fo the var which holds the mapping parameter of an mapping entry
UNS32 * pMappingParameter = NULL;
// pointer to the transmissiontype...
UNS8 * pTransmissionType = NULL;
UNS32 * pwCobId = NULL;
UNS8 * pSize;
UNS8 size;
UNS8 dataType;
UNS16 index;
UNS8 subIndex;
UNS8 offset;
UNS8 status;
UNS8 sizeData;
pSize = &size;
UNS32 objDict;
status = state3;
pdoNum=0x00;
prp_j=0x00;
offset = 0x00;
UNS16 offsetObjdict;
UNS16 offsetObjdictMap;
UNS16 lastIndex;
/* only operational state allows PDO transmission */
if( d->nodeState != Operational )
return 0;
(*d->post_sync)();
/* So, the node is in operational state */
/* study all PDO stored in the objects dictionary */
offsetObjdict = d->firstIndex->PDO_TRS;
lastIndex = d->lastIndex->PDO_TRS;
offsetObjdictMap = d->firstIndex->PDO_TRS_MAP;
if(offsetObjdict) while( offsetObjdict <= lastIndex) {
switch( status ) {
case state3: /* get the PDO transmission type */
if (d->objdict[offsetObjdict].bSubCount <= 2) {
MSG_ERR(0x1004, "Subindex 2 not found at index ", 0x1800 + pdoNum);
return 0xFF;
}
pTransmissionType = d->objdict[offsetObjdict].pSubindex[2].pObject;
MSG_WAR(0x3005, "Reading PDO at index : ", 0x1800 + pdoNum);
status = state4;
break;
case state4: /* check if transmission type is after (this) SYNC */
/* The message may not be transmited every SYNC but every n SYNC */
if( (*pTransmissionType >= TRANS_SYNC_MIN) && (*pTransmissionType <= TRANS_SYNC_MAX) &&
(++d->count_sync[pdoNum] == *pTransmissionType) ) {
d->count_sync[pdoNum] = 0;
MSG_WAR(0x3007, " PDO is on SYNCHRO. Trans type : ", *pTransmissionType);
status = state5;
break;
}
else {
MSG_WAR(0x3008, " Not on synchro or not at this SYNC. Trans type : ",
*pTransmissionType);
pdoNum++;
offsetObjdict++;
offsetObjdictMap++;
status = state11;
break;
}
case state5: /* get PDO CobId */
pwCobId = d->objdict[offsetObjdict].pSubindex[1].pObject;
MSG_WAR(0x3009, " PDO CobId is : ", *pwCobId);
status = state7;
break;
case state7: /* get mapped objects number to transmit with this PDO */
pMappingCount = d->objdict[offsetObjdictMap].pSubindex[0].pObject;
MSG_WAR(0x300D, " Number of objects mapped : ",*pMappingCount );
status = state8;
case state8: /* get mapping parameters */
pMappingParameter = d->objdict[offsetObjdictMap].pSubindex[prp_j + 1].pObject;
MSG_WAR(0x300F, " got mapping parameter : ", *pMappingParameter);
MSG_WAR(0x3050, " at index : ", 0x1A00 + pdoNum);
MSG_WAR(0x3051, " sub-index : ", prp_j + 1);
status = state9;
case state9: /* get data to transmit */
index = (UNS16)((*pMappingParameter) >> 16);
subIndex = (UNS8)(( (*pMappingParameter) >> (UNS8)8 ) & (UNS32)0x000000FF);
// <<3 because in *pMappingParameter the size is in bits
sizeData = (UNS8) ((*pMappingParameter & (UNS32)0x000000FF) >> 3) ;
objDict = getODentry(d, index, subIndex, (void *)&d->process_var.data[offset], &sizeData, &dataType, 0 );
if( objDict != OD_SUCCESSFUL ){
MSG_ERR(0x1013, " Couldn't find mapped variable at index-subindex-size : ", (UNS16)(*pMappingParameter));
return 0xFF;
}
offset += sizeData ;
d->process_var.count = offset;
prp_j++;
status = state10;
break;
case state10: /* loop to get all the data to transmit */
if( prp_j < *pMappingCount ){
MSG_WAR(0x3014, " next variable mapped : ", prp_j);
status = state8;
break;
}
else {
MSG_WAR(0x3015, " End scan mapped variable", 0);
PDOmGR( d, *pwCobId );
MSG_WAR(0x3016, " End of this pdo. Should have been sent", 0);
pdoNum++;
offsetObjdict++;
offsetObjdictMap++;
offset = 0x00;
prp_j = 0x00;
status = state11;
break;
}
case state11:
MSG_WAR(0x3017, "next pdo index : ", pdoNum);
status = state3;
break;
default:
MSG_ERR(0x1019,"Unknown state has been reached : %d",status);
return 0xFF;
}// end switch case
}// end while( prp_i<dict_cstes.max_count_of_PDO_transmit )
(*d->post_TPDO)();
return 0;
}