src/pdo.c
author Robert Lehmann <robert.lehmann@sitec-systems.de>
Tue, 28 Jul 2015 16:36:55 +0200
changeset 793 72e9e1064432
parent 743 17715d2ecf10
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

  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 "pdo.h"
#include "objacces.h"
#include "canfestival.h"
#include "sysdep.h"

/*!
** @file   pdo.c
** @author Edouard TISSERANT and Francis DUPIN
** @date   Tue Jun  5 09:32:32 2007
**
** @brief
**
**
*/

/*!
**
**
** @param d
** @param TPDO_com TPDO communication parameters OD entry
** @param TPDO_map TPDO mapping parameters OD entry
**
** @return
**/

UNS8 buildPDO (CO_Data * d, UNS8 numPdo, Message * pdo)
{
  const indextable *TPDO_com = d->objdict + d->firstIndex->PDO_TRS + numPdo;
  const indextable *TPDO_map = d->objdict + d->firstIndex->PDO_TRS_MAP + numPdo;

  UNS8 prp_j = 0x00;
  UNS32 offset = 0x00000000;
  const UNS8 *pMappingCount = (UNS8 *) TPDO_map->pSubindex[0].pObject;

  pdo->cob_id = (UNS16) UNS16_LE(*(UNS32*)TPDO_com->pSubindex[1].pObject & 0x7FF);
  pdo->rtr = NOT_A_REQUEST;

  MSG_WAR (0x3009, "  PDO CobId is : ",
           *(UNS32 *) TPDO_com->pSubindex[1].pObject);
  MSG_WAR (0x300D, "  Number of objects mapped : ", *pMappingCount);

  do
    {
      UNS8 dataType;            /* Unused */
      UNS8 tmp[] = { 0, 0, 0, 0, 0, 0, 0, 0 };  /* temporary space to hold bits */

      /* pointer fo the var which holds the mapping parameter of an mapping entry  */
      UNS32 *pMappingParameter =
        (UNS32 *) TPDO_map->pSubindex[prp_j + 1].pObject;
      UNS16 index = (UNS16) ((*pMappingParameter) >> 16);
      UNS32 Size = (UNS32) (*pMappingParameter & (UNS32) 0x000000FF);     /* Size in bits */

      /* get variable only if Size != 0 and Size is lower than remaining bits in the PDO */
      if (Size && ((offset + Size) <= 64))
        {
          UNS32 ByteSize = 1 + ((Size - 1) >> 3);        /*1->8 => 1 ; 9->16 => 2, ... */
          UNS8 subIndex =
            (UNS8) (((*pMappingParameter) >> (UNS8) 8) & (UNS32) 0x000000FF);

          MSG_WAR (0x300F, "  got mapping parameter : ", *pMappingParameter);
          MSG_WAR (0x3050, "    at index : ", TPDO_map->index);
          MSG_WAR (0x3051, "    sub-index : ", prp_j + 1);

          if (getODentry (d, index, subIndex, tmp, &ByteSize, &dataType, 0) !=
              OD_SUCCESSFUL)
            {
              MSG_ERR (0x1013,
                       " Couldn't find mapped variable at index-subindex-size : ",
                       (UNS32) (*pMappingParameter));
              return 0xFF;
            }
          /* copy bit per bit in little endian */
          CopyBits ((UNS8) Size, ((UNS8 *) tmp), 0, 0,
                    (UNS8 *) & pdo->data[offset >> 3], (UNS8)(offset % 8), 0);

          offset += Size;
        }
      prp_j++;
    }
  while (prp_j < *pMappingCount);

  pdo->len = (UNS8)(1 + ((offset - 1) >> 3));

  MSG_WAR (0x3015, "  End scan mapped variable", 0);

  return 0;
}

/*!
**
**
** @param d
** @param cobId
**
** @return
**/
UNS8
sendPDOrequest (CO_Data * d, UNS16 RPDOIndex)
{
  UNS16 *pwCobId;
  UNS16 offset = d->firstIndex->PDO_RCV;
  UNS16 lastIndex = d->lastIndex->PDO_RCV;

  if (!d->CurrentCommunicationState.csPDO)
    {
      return 0;
    }

  /* Sending the request only if the cobid have been found on the PDO
     receive */
  /* part dictionary */

  MSG_WAR (0x3930, "sendPDOrequest RPDO Index : ", RPDOIndex);

  if (offset && RPDOIndex >= 0x1400)
    {
      offset += RPDOIndex - 0x1400;
      if (offset <= lastIndex)
        {
          /* get the CobId */
          pwCobId = d->objdict[offset].pSubindex[1].pObject;

          MSG_WAR (0x3930, "sendPDOrequest cobId is : ", *pwCobId);
          {
            Message pdo;
            pdo.cob_id = UNS16_LE(*pwCobId);
            pdo.rtr = REQUEST;
            pdo.len = 0;
            return canSend (d->canHandle, &pdo);
          }
        }
    }
  MSG_ERR (0x1931, "sendPDOrequest : RPDO Index not found : ", RPDOIndex);
  return 0xFF;
}


/*!
**
**
** @param d
** @param m
**
** @return
**/
UNS8
proceedPDO (CO_Data * d, Message * m)
{
  UNS8 numPdo;
  UNS8 numMap;                  /* Number of the mapped varable */
  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;
  UNS8 *pTransmissionType = NULL;       /* pointer to the transmission
                                           type */
  UNS16 *pwCobId = NULL;
  UNS8 Size;
  UNS8 offset;
  UNS8 status;
  UNS32 objDict;
  UNS16 offsetObjdict;
  UNS16 lastIndex;

  status = state2;

  MSG_WAR (0x3935, "proceedPDO, cobID : ", (UNS16_LE(m->cob_id) & 0x7ff));
  offset = 0x00;
  numPdo = 0;
  numMap = 0;
  if ((*m).rtr == NOT_A_REQUEST)
    { 
      offsetObjdict = d->firstIndex->PDO_RCV;
      lastIndex = d->lastIndex->PDO_RCV;

      if (offsetObjdict)
        while (offsetObjdict <= lastIndex)
          {
            switch (status)
              {

              case state2:
                pwCobId = d->objdict[offsetObjdict].pSubindex[1].pObject;
                if (*pwCobId == UNS16_LE(m->cob_id))
                  {
                    /* The cobId is recognized */
                    status = state4;
                    MSG_WAR (0x3936, "cobId found at index ",
                             0x1400 + numPdo);
                    break;
                  }
                else
                  {
                    /* received cobId does not match */
                    numPdo++;
                    offsetObjdict++;
                    status = state2;
                    break;
                  }

              case state4:     /* Get Mapped Objects Number */
                /* The cobId of the message received has been found in the
                   dictionnary. */
                offsetObjdict = d->firstIndex->PDO_RCV_MAP;
                lastIndex = d->lastIndex->PDO_RCV_MAP;
                pMappingCount =
                  (UNS8 *) (d->objdict + offsetObjdict +
                            numPdo)->pSubindex[0].pObject;
                numMap = 0;
                while (numMap < *pMappingCount)
                  {
                    UNS8 tmp[] = { 0, 0, 0, 0, 0, 0, 0, 0 };
                    UNS32 ByteSize;
                    pMappingParameter =
                      (UNS32 *) (d->objdict + offsetObjdict +
                                 numPdo)->pSubindex[numMap + 1].pObject;
                    if (pMappingParameter == NULL)
                      {
                        MSG_ERR (0x1937, "Couldn't get mapping parameter : ",
                                 numMap + 1);
                        return 0xFF;
                      }
                    /* Get the addresse of the mapped variable. */
                    /* detail of *pMappingParameter : */
                    /* The 16 hight bits contains the index, the medium 8 bits
                       contains the subindex, */
                    /* and the lower 8 bits contains the size of the mapped
                       variable. */

                    Size = (UNS8) (*pMappingParameter & (UNS32) 0x000000FF);

                    /* set variable only if Size != 0 and 
                     * Size is lower than remaining bits in the PDO */
                    if (Size && ((offset + Size) <= (m->len << 3)))
                      {
                        /* copy bit per bit in little endian */
                        CopyBits (Size, (UNS8 *) & m->data[offset >> 3],
                                  offset % 8, 0, ((UNS8 *) tmp), 0, 0);
                        /*1->8 => 1 ; 9->16 =>2, ... */
                        ByteSize = (UNS32)(1 + ((Size - 1) >> 3));

                        objDict =
                          setODentry (d, (UNS16) ((*pMappingParameter) >> 16),
                                      (UNS8) (((*pMappingParameter) >> 8) &
                                              0xFF), tmp, &ByteSize, 0);

                        if (objDict != OD_SUCCESSFUL)
                          {
                            MSG_ERR (0x1938,
                                     "error accessing to the mapped var : ",
                                     numMap + 1);
                            MSG_WAR (0x2939, "         Mapped at index : ",
                                     (*pMappingParameter) >> 16);
                            MSG_WAR (0x2940, "                subindex : ",
                                     ((*pMappingParameter) >> 8) & 0xFF);
                            return 0xFF;
                          }

                        MSG_WAR (0x3942,
                                 "Variable updated by PDO cobid : ",
                                 UNS16_LE(m->cob_id));
                        MSG_WAR (0x3943, "         Mapped at index : ",
                                 (*pMappingParameter) >> 16);
                        MSG_WAR (0x3944, "                subindex : ",
                                 ((*pMappingParameter) >> 8) & 0xFF);
                        offset += Size;
                      }
                    numMap++;
                  }             /* end loop while on mapped variables */
                if (d->RxPDO_EventTimers)
                {
                    TIMEVAL EventTimerDuration = *(UNS16 *)d->objdict[offsetObjdict].pSubindex[5].pObject;
                    if(EventTimerDuration){
                        DelAlarm (d->RxPDO_EventTimers[numPdo]);
                        d->RxPDO_EventTimers[numPdo] = SetAlarm (d, numPdo, d->RxPDO_EventTimers_Handler,
                        MS_TO_TIMEVAL (EventTimerDuration), 0);
                    }
                }
                return 0;

              }                 /* end switch status */
          }                     /* end while */
    }                           /* end if Donnees */
  else if ((*m).rtr == REQUEST)
    {
      MSG_WAR (0x3946, "Receive a PDO request cobId : ", UNS16_LE(m->cob_id));
      status = state1;
      offsetObjdict = d->firstIndex->PDO_TRS;
      lastIndex = d->lastIndex->PDO_TRS;
      if (offsetObjdict)
        while (offsetObjdict <= lastIndex)
          {
            /* study of all PDO stored in the objects dictionary */

            switch (status)
              {

              case state1:     /* check the CobId */
                /* get CobId of the dictionary which match to the received PDO
                 */
                pwCobId =
                   (d->objdict +
                             offsetObjdict)->pSubindex[1].pObject;
                if (*pwCobId == UNS16_LE(m->cob_id))
                  {
                    status = state4;
                    break;
                  }
                else
                  {
                    numPdo++;
                    offsetObjdict++;
                  }
                status = state1;
                break;


              case state4:     /* check transmission type */
                pTransmissionType =
                  (UNS8 *) d->objdict[offsetObjdict].pSubindex[2].pObject;
                /* If PDO is to be sampled and send on RTR, do it */
                if ((*pTransmissionType == TRANS_RTR))
                  {
                    status = state5;
                    break;
                  }
                /* RTR_SYNC means data prepared at SYNC, transmitted on RTR */
                else if ((*pTransmissionType == TRANS_RTR_SYNC))
                  {
                    if (d->PDO_status[numPdo].
                        transmit_type_parameter & PDO_RTR_SYNC_READY)
                      {
                        /*Data ready, just send */
                        canSend (d->canHandle,
                                 &d->PDO_status[numPdo].last_message);
                        return 0;
                      }
                    else
                      {
                        /* if SYNC did never occur, transmit current data */
                        /* DS301 do not tell what to do in such a case... */
                        MSG_ERR (0x1947,
                                 "Not ready RTR_SYNC TPDO send current data : ",
                                 UNS16_LE(m->cob_id));
                        status = state5;
                      }
                    break;
                  }
                else if ((*pTransmissionType == TRANS_EVENT_PROFILE) ||
                         (*pTransmissionType == TRANS_EVENT_SPECIFIC))
                  {
                    /* Zap all timers and inhibit flag */
                    d->PDO_status[numPdo].event_timer =
                      DelAlarm (d->PDO_status[numPdo].event_timer);
                    d->PDO_status[numPdo].inhibit_timer =
                      DelAlarm (d->PDO_status[numPdo].inhibit_timer);
                    d->PDO_status[numPdo].transmit_type_parameter &=
                      ~PDO_INHIBITED;
                    /* Call  PDOEventTimerAlarm for this TPDO, 
                     * this will trigger emission et reset timers */
                    PDOEventTimerAlarm (d, numPdo);
                    return 0;
                  }
                else
                  {
                    /* The requested PDO is not to send on request. So, does
                       nothing. */
                    MSG_WAR (0x2947, "PDO is not to send on request : ",
                             UNS16_LE(m->cob_id));
                    return 0xFF;
                  }

              case state5:     /* build and send requested PDO */
                {
                  Message pdo;
                  if (buildPDO (d, numPdo, &pdo))
                    {
                      MSG_ERR (0x1948, " Couldn't build TPDO number : ", numPdo);
                      return 0xFF;
                    }
                  canSend (d->canHandle, &pdo);
                  return 0;
                }
              }                 /* end switch status */
          }                     /* end while */
    }                           /* end if Requete */

  return 0;
}

/*!
**
**
** @param NbBits
** @param SrcByteIndex
** @param SrcBitIndex
** @param SrcBigEndian
** @param DestByteIndex
** @param DestBitIndex
** @param DestBigEndian
**/
void
CopyBits (UNS8 NbBits, UNS8 * SrcByteIndex, UNS8 SrcBitIndex,
          UNS8 SrcBigEndian, UNS8 * DestByteIndex, UNS8 DestBitIndex,
          UNS8 DestBigEndian)
{
  /* This loop copy as many bits that it can each time, crossing */
  /* successively bytes */
  // boundaries from LSB to MSB.
  while (NbBits > 0)
    {
      /* Bit missalignement between src and dest */
      INTEGER8 Vect = DestBitIndex - SrcBitIndex;

      /* We can now get src and align it to dest */
      UNS8 Aligned =
        Vect > 0 ? *SrcByteIndex << Vect : *SrcByteIndex >> -Vect;

      /* Compute the nb of bit we will be able to copy */
      UNS8 BoudaryLimit = (Vect > 0 ? 8 - DestBitIndex : 8 - SrcBitIndex);
      UNS8 BitsToCopy = BoudaryLimit > NbBits ? NbBits : BoudaryLimit;

      /* Create a mask that will serve in: */
      UNS8 Mask =
        ((0xff << (DestBitIndex + BitsToCopy)) |
         (0xff >> (8 - DestBitIndex)));

      /* - Filtering src */
      UNS8 Filtered = Aligned & ~Mask;

      /* - and erase bits where we write, preserve where we don't */
      *DestByteIndex &= Mask;

      /* Then write. */
      *DestByteIndex |= Filtered;

      /*Compute next time cursors for src */
      if ((SrcBitIndex += BitsToCopy) > 7)      /* cross boundary ? */
        {
          SrcBitIndex = 0;      /* First bit */
          SrcByteIndex += (SrcBigEndian ? -1 : 1);      /* Next byte */
        }


      /*Compute next time cursors for dest */
      if ((DestBitIndex += BitsToCopy) > 7)
        {
          DestBitIndex = 0;     /* First bit */
          DestByteIndex += (DestBigEndian ? -1 : 1);    /* Next byte */
        }

      /*And decrement counter. */
      NbBits -= BitsToCopy;
    }

}

static void sendPdo(CO_Data * d, UNS32 pdoNum, Message * pdo)
{
  /*store_as_last_message */
  d->PDO_status[pdoNum].last_message = *pdo;
  MSG_WAR (0x396D, "sendPDO cobId :", UNS16_LE(pdo->cob_id));
  MSG_WAR (0x396E, "     Nb octets  : ", pdo->len);

  canSend (d->canHandle, pdo);
}


/*!
**
**
** @param d
**
** @return
**/

UNS8
sendPDOevent (CO_Data * d)
{
  /* Calls _sendPDOevent specifying it is not a sync event */
  return _sendPDOevent (d, 0);
}

UNS8
sendOnePDOevent (CO_Data * d, UNS8 pdoNum)
{
  UNS16 offsetObjdict;
  Message pdo;
  if (!d->CurrentCommunicationState.csPDO ||
      (d->PDO_status[pdoNum].transmit_type_parameter & PDO_INHIBITED))
    {
      return 0;
    }

  offsetObjdict = (UNS16) (d->firstIndex->PDO_TRS + pdoNum);

  MSG_WAR (0x3968, "  PDO is on EVENT. Trans type : ",
           *((UNS8 *) d->objdict[offsetObjdict].pSubindex[2].pObject));
  
  memset(&pdo, 0, sizeof(pdo));
  if (buildPDO (d, pdoNum, &pdo))
    {
      MSG_ERR (0x3907, " Couldn't build TPDO number : ",
               pdoNum);
      return 0;
    }

  /*Compare new and old PDO */
  if (d->PDO_status[pdoNum].last_message.cob_id == pdo.cob_id
      && d->PDO_status[pdoNum].last_message.len == pdo.len
      && memcmp(d->PDO_status[pdoNum].last_message.data,
					pdo.data, 8) == 0
    )
    {
      /* No changes -> go to next pdo */
      return 0;
    }
  else
    {

      TIMEVAL EventTimerDuration;
      TIMEVAL InhibitTimerDuration;

      MSG_WAR (0x306A, "Changes TPDO number : ", pdoNum);
      /* Changes detected -> transmit message */
      EventTimerDuration =
        *(UNS16 *) d->objdict[offsetObjdict].pSubindex[5].
        pObject;
      InhibitTimerDuration =
        *(UNS16 *) d->objdict[offsetObjdict].pSubindex[3].
        pObject;

      /* Start both event_timer and inhibit_timer */
      if (EventTimerDuration)
        {
          DelAlarm (d->PDO_status[pdoNum].event_timer);
          d->PDO_status[pdoNum].event_timer =
            SetAlarm (d, pdoNum, &PDOEventTimerAlarm,
                      MS_TO_TIMEVAL (EventTimerDuration), 0);
        }

      if (InhibitTimerDuration)
        {
          DelAlarm (d->PDO_status[pdoNum].inhibit_timer);
          d->PDO_status[pdoNum].inhibit_timer =
            SetAlarm (d, pdoNum, &PDOInhibitTimerAlarm,
                      US_TO_TIMEVAL (InhibitTimerDuration *
                                     100), 0);
          /* and inhibit TPDO */
          d->PDO_status[pdoNum].transmit_type_parameter |=
            PDO_INHIBITED;
        }

      sendPdo(d, pdoNum, &pdo);
    }
    return 1;
}

void
PDOEventTimerAlarm (CO_Data * d, UNS32 pdoNum)
{
  /* This is needed to avoid deletion of re-attribuated timer */
  d->PDO_status[pdoNum].event_timer = TIMER_NONE;
  /* force emission of PDO by artificially changing last emitted */
  d->PDO_status[pdoNum].last_message.cob_id = 0;
  sendOnePDOevent (d, (UNS8) pdoNum);
}

void
PDOInhibitTimerAlarm (CO_Data * d, UNS32 pdoNum)
{
  /* This is needed to avoid deletion of re-attribuated timer */
  d->PDO_status[pdoNum].inhibit_timer = TIMER_NONE;
  /* Remove inhibit flag */
  d->PDO_status[pdoNum].transmit_type_parameter &= ~PDO_INHIBITED;
  sendOnePDOevent (d, (UNS8) pdoNum);
}

void
_RxPDO_EventTimers_Handler(CO_Data *d, UNS32 pdoNum)
{
}

/*!
**
**
** @param d
** @param isSyncEvent
**
** @return
**/

UNS8
_sendPDOevent (CO_Data * d, UNS8 isSyncEvent)
{
  UNS8 pdoNum = 0x00;           /* number of the actual processed pdo-nr. */
  UNS8 *pTransmissionType = NULL;
  UNS8 status = state3;
  UNS16 offsetObjdict = d->firstIndex->PDO_TRS;
  UNS16 offsetObjdictMap = d->firstIndex->PDO_TRS_MAP;
  UNS16 lastIndex = d->lastIndex->PDO_TRS;

  if (!d->CurrentCommunicationState.csPDO)
    {
      return 0;
    }


  /* study all PDO stored in the objects dictionary */
  if (offsetObjdict)
    {
      Message pdo;/* = Message_Initializer;*/
      memset(&pdo, 0, sizeof(pdo));
      while (offsetObjdict <= lastIndex)
        {
          switch (status)
            {
            case state3:
              if ( /* bSubCount always 5 with objdictedit -> check disabled */
                   /*d->objdict[offsetObjdict].bSubCount < 5 ||*/
                   /* check if TPDO is not valid */
                   *(UNS32 *) d->objdict[offsetObjdict].pSubindex[1].
                   pObject & 0x80000000)
                {
                  MSG_WAR (0x3960, "Not a valid PDO ", 0x1800 + pdoNum);
                  /*Go next TPDO */
                  status = state11;
                  break;
                }
              /* get the PDO transmission type */
              pTransmissionType =
                (UNS8 *) d->objdict[offsetObjdict].pSubindex[2].pObject;
              MSG_WAR (0x3962, "Reading PDO at index : ", 0x1800 + pdoNum);

              /* check if transmission type is SYNCRONOUS */
              /* message transmited every n SYNC with n=TransmissionType */
              if (isSyncEvent &&
                  (*pTransmissionType >= TRANS_SYNC_MIN) &&
                  (*pTransmissionType <= TRANS_SYNC_MAX) &&
                  (++d->PDO_status[pdoNum].transmit_type_parameter ==
                   *pTransmissionType))
                {
                  /*Reset count of SYNC */
                  d->PDO_status[pdoNum].transmit_type_parameter = 0;
                  MSG_WAR (0x3964, "  PDO is on SYNCHRO. Trans type : ",
                           *pTransmissionType);
                  memset(&pdo, 0, sizeof(pdo));
                  /*{
                    Message msg_init = Message_Initializer;
                    pdo = msg_init;
                  }*/
                  if (buildPDO (d, pdoNum, &pdo))
                    {
                      MSG_ERR (0x1906, " Couldn't build TPDO number : ",
                               pdoNum);
                      status = state11;
                      break;
                    }
                  status = state5;
                  /* If transmission RTR, with data sampled on SYNC */
                }
              else if (isSyncEvent && (*pTransmissionType == TRANS_RTR_SYNC))
                {
                  if (buildPDO
                      (d, pdoNum, &d->PDO_status[pdoNum].last_message))
                    {
                      MSG_ERR (0x1966, " Couldn't build TPDO number : ",
                               pdoNum);
                      d->PDO_status[pdoNum].transmit_type_parameter &=
                        ~PDO_RTR_SYNC_READY;
                    }
                  else
                    {
                      d->PDO_status[pdoNum].transmit_type_parameter |=
                        PDO_RTR_SYNC_READY;
                    }
                  status = state11;
                  break;
                  /* If transmission on Event and not inhibited, check for changes */
                }
              else
                if ( (isSyncEvent && (*pTransmissionType == TRANS_SYNC_ACYCLIC))
                     ||
                     (!isSyncEvent && (*pTransmissionType == TRANS_EVENT_PROFILE || *pTransmissionType == TRANS_EVENT_SPECIFIC)
                       && !(d->PDO_status[pdoNum].transmit_type_parameter & PDO_INHIBITED)))
                {
                  sendOnePDOevent(d, pdoNum);
                  status = state11;
                }
              else
                {
                  MSG_WAR (0x306C,
                           "  PDO is not on EVENT or synchro or not at this SYNC. Trans type : ",
                           *pTransmissionType);
                  status = state11;
                }
              break;
            case state5:       /*Send the pdo */
              sendPdo(d, pdoNum, &pdo);
              status = state11;
              break;
            case state11:      /*Go to next TPDO */
              pdoNum++;
              offsetObjdict++;
              offsetObjdictMap++;
              MSG_WAR (0x3970, "next pdo index : ", pdoNum);
              status = state3;
              break;

            default:
              MSG_ERR (0x1972, "Unknown state has been reached :", status);
              return 0xFF;
            }                   /* end switch case */

        }                       /* end while */
    }
  return 0;
}

/*!
**
**
** @param d
** @param OD_entry
** @param bSubindex
** @return always 0
**/

UNS32
TPDO_Communication_Parameter_Callback (CO_Data * d,
                                       const indextable * OD_entry,
                                       UNS8 bSubindex)
{
  /* If PDO are actives */
  if (d->CurrentCommunicationState.csPDO)
    switch (bSubindex)
      {
      case 2:                  /* Changed transmition type */
      case 3:                  /* Changed inhibit time */
      case 5:                  /* Changed event time */
        {
          const indextable *TPDO_com = d->objdict + d->firstIndex->PDO_TRS;
          UNS8 numPdo = (UNS8) (OD_entry - TPDO_com);    /* number of the actual processed pdo-nr. */

          /* Zap all timers and inhibit flag */
          d->PDO_status[numPdo].event_timer =
            DelAlarm (d->PDO_status[numPdo].event_timer);
          d->PDO_status[numPdo].inhibit_timer =
            DelAlarm (d->PDO_status[numPdo].inhibit_timer);
          d->PDO_status[numPdo].transmit_type_parameter = 0;
          /* Call  PDOEventTimerAlarm for this TPDO, this will trigger emission et reset timers */
          PDOEventTimerAlarm (d, numPdo);
          return 0;
        }

      default:                 /* other subindex are ignored */
        break;
      }
  return 0;
}

void
PDOInit (CO_Data * d)
{
  /* For each TPDO mapping parameters */
  UNS16 pdoIndex = 0x1800;      /* OD index of TDPO */

  UNS16 offsetObjdict = d->firstIndex->PDO_TRS;
  UNS16 lastIndex = d->lastIndex->PDO_TRS;
  if (offsetObjdict)
    while (offsetObjdict <= lastIndex)
      {
        /* Assign callbacks to sensible TPDO mapping subindexes */
        UNS32 errorCode;
        ODCallback_t *CallbackList;
        /* Find callback list */
        scanIndexOD (d, pdoIndex, &errorCode, &CallbackList);
        if (errorCode == OD_SUCCESSFUL && CallbackList)
          {
            /*Assign callbacks to corresponding subindex */
            /* Transmission type */
            CallbackList[2] = &TPDO_Communication_Parameter_Callback;
            /* Inhibit time */
            CallbackList[3] = &TPDO_Communication_Parameter_Callback;
            /* Event timer */
            CallbackList[5] = &TPDO_Communication_Parameter_Callback;
          }
        pdoIndex++;
        offsetObjdict++;
      }

  /* Trigger a non-sync event */
  _sendPDOevent (d, 0);
}

void
PDOStop (CO_Data * d)
{
  /* For each TPDO mapping parameters */
  UNS8 pdoNum = 0x00;           /* number of the actual processed pdo-nr. */
  UNS16 offsetObjdict = d->firstIndex->PDO_TRS;
  UNS16 lastIndex = d->lastIndex->PDO_TRS;
  if (offsetObjdict)
    while (offsetObjdict <= lastIndex)
      {
        /* Delete TPDO timers */
        d->PDO_status[pdoNum].event_timer =
          DelAlarm (d->PDO_status[pdoNum].event_timer);
        d->PDO_status[pdoNum].inhibit_timer =
          DelAlarm (d->PDO_status[pdoNum].inhibit_timer);
        /* Reset transmit type parameter */
        d->PDO_status[pdoNum].transmit_type_parameter = 0;
        d->PDO_status[pdoNum].last_message.cob_id = 0;
        pdoNum++;
        offsetObjdict++;
      }
}