Configure now initialize DLL_LIST in objdictgen/canfestival_config.py, required by Beremiz' CanFestival plugin
/*
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
*/
/**
** @file dcf.c
** @author Edouard TISSERANT and Francis DUPIN
** @date Mon Jun 4 17:06:12 2007
**
** @brief EXEMPLE OF SOMMARY
**
**
*/
#include "data.h"
#include "sysdep.h"
#include "dcf.h"
typedef struct {
UNS16 Index;
UNS8 Subindex;
UNS32 Size;
UNS8 *Data;
} dcf_entry_t;
void SaveNode(CO_Data* d, UNS8 nodeId);
static UNS8 read_consise_dcf_next_entry(CO_Data* d, UNS8 nodeId);
static UNS8 write_consise_dcf_next_entry(CO_Data* d, UNS8 nodeId);
UNS8 init_consise_dcf(CO_Data* d,UNS8 nodeId);
#ifdef _MSC_VER
#define inline _inline
#endif /* _MSC_VER */
inline void start_node(CO_Data* d, UNS8 nodeId){
/* Ask slave node to go in operational mode */
masterSendNMTstateChange (d, nodeId, NMT_Start_Node);
d->NMTable[nodeId] = Operational;
}
/**
** @brief Function to be called from post_SlaveBootup
**
** @param d
** @param nodeId
*/
UNS8 check_and_start_node(CO_Data* d, UNS8 nodeId)
{
if(d->dcf_status != DCF_STATUS_INIT)
return 0;
if((init_consise_dcf(d, nodeId) == 0) || (read_consise_dcf_next_entry(d, nodeId) == 0)){
start_node(d, nodeId);
return 1;
}
d->dcf_status = DCF_STATUS_READ_CHECK;
return 2;
}
inline void start_and_seek_node(CO_Data* d, UNS8 nodeId){
UNS8 node;
start_node(d,nodeId);
/* Look for other nodes waiting to be started */
for(node = 0 ; node<NMT_MAX_NODE_ID ; node++){
if(d->NMTable[node] != Initialisation)
continue;
if(check_and_start_node(d, node) == 2)
return;
}
/* No more node to start. Let's start our own node */
setState(d, Operational);
}
/**
**
**
** @param d
** @param nodeId
*/
static void CheckSDOAndContinue(CO_Data* d, UNS8 nodeId)
{
UNS32 abortCode = 0;
UNS8 buf[4], match = 0, node;
UNS32 size=4;
if(d->dcf_status == DCF_STATUS_READ_CHECK){
// printf("DCF_STATUS_READ_CHECK \n");
if(getReadResultNetworkDict (d, nodeId, buf, &size, &abortCode) != SDO_FINISHED)
goto dcferror;
/* Check if data received match the DCF */
if(size == d->dcf_size){
match = 1;
while(size--)
if(buf[size] != d->dcf_data[size])
match = 0;
}
if(match) {
if(read_consise_dcf_next_entry(d, nodeId) == 0){
start_and_seek_node(d, nodeId);
}
}
else { /* Data received does not match : start rewriting all */
if((init_consise_dcf(d, nodeId) == 0) || (write_consise_dcf_next_entry(d, nodeId) == 0))
goto dcferror;
d->dcf_status = DCF_STATUS_WRITE;
}
}
else if(d->dcf_status == DCF_STATUS_WRITE){
// printf("DCF_STATUS_WRITE \n");
if(getWriteResultNetworkDict (d, nodeId, &abortCode) != SDO_FINISHED)
goto dcferror;
if(write_consise_dcf_next_entry(d, nodeId) == 0){
#ifdef DCF_SAVE_NODE
SaveNode(d, nodeId);
d->dcf_status = DCF_STATUS_SAVED;
#else //DCF_SAVE_NODE
d->dcf_status = DCF_STATUS_INIT;
start_and_seek_node(d,nodeId);
#endif //DCF_SAVE_NODE
}
}
else if(d->dcf_status == DCF_STATUS_SAVED){
// printf("DCF_STATUS_SAVED \n");
if(getWriteResultNetworkDict (d, nodeId, &abortCode) != SDO_FINISHED)
goto dcferror;
masterSendNMTstateChange (d, nodeId, NMT_Reset_Node);
d->dcf_status = DCF_STATUS_INIT;
d->NMTable[nodeId] = Unknown_state;
}
return;
dcferror:
MSG_ERR(0x1A01, "SDO error in consise DCF", abortCode);
MSG_WAR(0x2A02, "server node : ", nodeId);
d->NMTable[nodeId] = Unknown_state;
}
/**
**
**
** @param d
** @param nodeId
**
** @return
*/
UNS8 init_consise_dcf(CO_Data* d,UNS8 nodeId)
{
/* Fetch DCF OD entry */
UNS32 errorCode;
ODCallback_t *Callback;
UNS8* dcf;
d->dcf_odentry = (*d->scanIndexOD)(0x1F22, &errorCode, &Callback);
/* If DCF entry do not exist... Nothing to do.*/
if (errorCode != OD_SUCCESSFUL) goto DCF_finish;
/* Fix DCF table overflow */
if(nodeId > d->dcf_odentry->bSubCount) goto DCF_finish;
/* If DCF empty... Nothing to do */
if(! d->dcf_odentry->pSubindex[nodeId].size) goto DCF_finish;
dcf = *(UNS8**)d->dcf_odentry->pSubindex[nodeId].pObject;
// printf("%.2x %.2x %.2x %.2x\n",dcf[0],dcf[1],dcf[2],dcf[3]);
d->dcf_cursor = dcf + 4;
d->dcf_entries_count = 0;
d->dcf_status = DCF_STATUS_INIT;
return 1;
DCF_finish:
return 0;
}
UNS8 get_next_DCF_data(CO_Data* d, dcf_entry_t *dcf_entry, UNS8 nodeId)
{
UNS8* dcfend;
UNS32 nb_entries;
UNS32 szData;
UNS8* dcf;
if(!d->dcf_odentry)
return 0;
if(nodeId > d->dcf_odentry->bSubCount)
return 0;
szData = d->dcf_odentry->pSubindex[nodeId].size;
dcf = *(UNS8**)d->dcf_odentry->pSubindex[nodeId].pObject;
nb_entries = UNS32_LE(*((UNS32*)dcf));
dcfend = dcf + szData;
if((UNS8*)d->dcf_cursor + 7 < (UNS8*)dcfend && d->dcf_entries_count < nb_entries){
/* DCF data may not be 32/16b aligned,
* we cannot directly dereference d->dcf_cursor
* as UNS16 or UNS32
* Do it byte per byte taking care on endianess*/
#ifdef CANOPEN_BIG_ENDIAN
dcf_entry->Index = *(d->dcf_cursor++) << 8 |
*(d->dcf_cursor++);
#else
memcpy(&dcf_entry->Index, d->dcf_cursor,2);
d->dcf_cursor+=2;
#endif
dcf_entry->Subindex = *(d->dcf_cursor++);
#ifdef CANOPEN_BIG_ENDIAN
dcf_entry->Size = *(d->dcf_cursor++) << 24 |
*(d->dcf_cursor++) << 16 |
*(d->dcf_cursor++) << 8 |
*(d->dcf_cursor++);
#else
memcpy(&dcf_entry->Size, d->dcf_cursor,4);
d->dcf_cursor+=4;
#endif
d->dcf_data = dcf_entry->Data = d->dcf_cursor;
d->dcf_size = dcf_entry->Size;
d->dcf_cursor += dcf_entry->Size;
d->dcf_entries_count++;
return 1;
}
return 0;
}
static UNS8 write_consise_dcf_next_entry(CO_Data* d, UNS8 nodeId)
{
UNS8 Ret;
dcf_entry_t dcf_entry;
if(!get_next_DCF_data(d, &dcf_entry, nodeId))
return 0;
Ret = writeNetworkDictCallBackAI(d, /* CO_Data* d*/
nodeId, /* UNS8 nodeId*/
dcf_entry.Index, /* UNS16 index*/
dcf_entry.Subindex, /* UNS8 subindex*/
(UNS8)dcf_entry.Size, /* UNS8 count*/
0, /* UNS8 dataType*/
dcf_entry.Data,/* void *data*/
CheckSDOAndContinue,/* Callback*/
0, /* no endianize*/
0); /* no block mode */
if(Ret)
MSG_ERR(0x1A02,"Erreur writeNetworkDictCallBackAI",Ret);
return 1;
}
static UNS8 read_consise_dcf_next_entry(CO_Data* d, UNS8 nodeId)
{
UNS8 Ret;
dcf_entry_t dcf_entry;
if(!get_next_DCF_data(d, &dcf_entry, nodeId))
return 0;
Ret = readNetworkDictCallbackAI(d, /* CO_Data* d*/
nodeId, /* UNS8 nodeId*/
dcf_entry.Index, /* UNS16 index*/
dcf_entry.Subindex, /* UNS8 subindex*/
0, /* UNS8 dataType*/
CheckSDOAndContinue,/* Callback*/
0); /* no block mode */
if(Ret)
MSG_ERR(0x1A03,"Erreur readNetworkDictCallbackAI",Ret);
return 1;
}
void SaveNode(CO_Data* d, UNS8 nodeId)
{
UNS8 Ret;
UNS32 data=0x65766173;
Ret = writeNetworkDictCallBackAI(d, /* CO_Data* d*/
nodeId, /* UNS8 nodeId*/
0x1010, /* UNS16 index*/
1, /* UNS8 subindex*/
4, /* UNS8 count*/
0, /* UNS8 dataType*/
(void *)&data,/* void *data*/
CheckSDOAndContinue,/* Callback*/
0, /* no endianize*/
0); /* no block mode */
if(Ret)
MSG_ERR(0x1A04,"Erreur writeNetworkDictCallBackAI",Ret);
}