Applied James patch that fixes can_cn4linux.c file descriptor handling and make it compatible with can_serial_hub.
/*
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;
UNS8 offset = 0x00;
const UNS8 *pMappingCount = (UNS8 *) TPDO_map->pSubindex[0].pObject;
pdo->cob_id = 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);
UNS8 Size = (UNS8) (*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))
{
UNS8 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 : ",
(UNS16) (*pMappingParameter));
return 0xFF;
}
/* copy bit per bit in little endian */
CopyBits (Size, ((UNS8 *) tmp), 0, 0,
(UNS8 *) & pdo->data[offset >> 3], offset % 8, 0);
offset += Size;
}
prp_j++;
}
while (prp_j < *pMappingCount);
pdo->len = 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)
{
UNS32 *pwCobId;
UNS16 offset = d->firstIndex->PDO_RCV;
UNS16 lastIndex = d->lastIndex->PDO_RCV;
/* 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 */
UNS32 *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)
{ /* The PDO received is not a
request. */
offsetObjdict = d->firstIndex->PDO_RCV;
lastIndex = d->lastIndex->PDO_RCV;
/* study of all the PDO stored in the dictionary */
if (offsetObjdict)
while (offsetObjdict <= lastIndex)
{
switch (status)
{
case state2:
/* get CobId of the dictionary correspondant to the received
PDO */
pwCobId =
d->objdict[offsetObjdict].pSubindex[1].pObject;
/* check the CobId coherance */
/*pwCobId is the cobId read in the dictionary at the state 3
*/
if (*pwCobId == UNS16_LE(m->cob_id))
{
/* The cobId is recognized */
status = state4;
MSG_WAR (0x3936, "cobId found at index ",
0x1400 + numPdo);
break;
}
else
{
/* cobId received does not match with those write in the
dictionnary */
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 };
UNS8 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);
ByteSize = 1 + ((Size - 1) >> 3); /*1->8 => 1 ; 9->16 =>
2, ... */
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 with value received by PDO cobid : ",
UNS16_LE(m->cob_id));
MSG_WAR (0x3943, " Mapped at index : ",
(*pMappingParameter) >> 16);
MSG_WAR (0x3944, " subindex : ",
((*pMappingParameter) >> 8) & 0xFF);
/* MSG_WAR(0x3945, " data : ",*((UNS32*)pMappedAppObject)); */
offset += Size;
}
numMap++;
} /* end loop while on mapped variables */
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 mean data is prepared at SYNC, and 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, force emission with 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 n�", 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;
}
}
/*!
**
**
** @param d
**
** @return
**/
UNS8
sendPDOevent (CO_Data * d)
{
/* Calls _sendPDOevent specifying it is not a sync event */
return _sendPDOevent (d, 0);
}
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;
_sendPDOevent (d, 0); /* not a Sync Event */
}
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;
_sendPDOevent (d, 0); /* not a Sync Event */
}
/*!
**
**
** @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;
/* study all PDO stored in the objects dictionary */
if (offsetObjdict)
{
Message pdo = Message_Initializer;
while (offsetObjdict <= lastIndex)
{
switch (status)
{
case state3:
if ( /*d->objdict[offsetObjdict].bSubCount < 5 || not necessary with objdictedit (always 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 */
/* The message is 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);
{
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))
||
((*pTransmissionType == TRANS_EVENT_PROFILE
|| *pTransmissionType == TRANS_EVENT_SPECIFIC)
&& !(d->PDO_status[pdoNum].
transmit_type_parameter & PDO_INHIBITED)))
{
MSG_WAR (0x3968, " PDO is on EVENT. Trans type : ",
*pTransmissionType);
{
Message msg_init = Message_Initializer;
pdo = msg_init;
}
if (buildPDO (d, pdoNum, &pdo))
{
MSG_ERR (0x3907, " Couldn't build TPDO number : ",
pdoNum);
status = state11;
break;
}
/*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 &&
#ifdef UNS64
*(UNS64 *) (&d->PDO_status[pdoNum].last_message.
data[0]) == *(UNS64 *) (&pdo.data[0])
#else /* don't ALLOW_64BIT_OPS */
*(UNS32 *) (&d->PDO_status[pdoNum].last_message.
data[0]) == *(UNS32 *) (&pdo.data[0])
&& *(UNS32 *) (&d->PDO_status[pdoNum].last_message.
data[4]) == *(UNS32 *) (&pdo.data[4])
#endif
)
{
/* No changes -> go to next pdo */
status = state11;
}
else
{
UNS16 EventTimerDuration;
UNS16 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;
status = state5;
/* 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;
}
}
}
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 */
/*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);
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 : %d", 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 = 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++;
}
}