Better error handling for unix and peak_linux.
/**************************************************************************
CanFestival3 win32 port example
This sample demonstrates CanFestival usage with Win32
Program implements master node. It starts CANOpen slave node, modifies OD,
performs SDO reads and prints some slave node information.
Usage:
win32test <node_id>
where node_id is node ID in decimal format
You should have CanFestival-3.dll CAN-uVCCM.dll in the search path to run this sample.
Code will work with non-UNICODE CanFestival-3.dll CAN-uVCCM.dll libraries.
Sample can work on other platdorms as well.
Copyright (C) 2007 Leonid Tochinski (ltochinski AT chattenassociates DOT com)
***************************************************************************/
#include <stdio.h>
#include <stdlib.h>
#include "win32test.h"
#include "canfestival.h"
#ifdef WIN32
#define sleep_proc(ms) Sleep(ms)
#define uptime_ms_proc() GetTickCount()
#else
#include <time.h>
#define sleep_proc(ms)
#define uptime_ms_proc (1000*(time()%86400)) // TOD
#endif
UNS8 GetChangeStateResults(UNS8 node_id, UNS8 expected_state, unsigned long timeout_ms)
{
unsigned long start_time = 0;
// reset nodes state
win32test_Data.NMTable[node_id] = Unknown_state;
// request node state
masterRequestNodeState(&win32test_Data, node_id);
start_time = uptime_ms_proc();
while(uptime_ms_proc() - start_time < timeout_ms)
{
if (getNodeState(&win32test_Data, node_id) == expected_state)
return 0;
sleep_proc(1);
}
return 0xFF;
}
UNS8 ReadSDO(UNS8 nodeId, UNS16 index, UNS8 subIndex, UNS8 dataType, void* data, UNS8* size)
{
UNS32 abortCode = 0;
UNS8 res = SDO_UPLOAD_IN_PROGRESS;
// Read SDO
UNS8 err = readNetworkDict (&win32test_Data, nodeId, index, subIndex, dataType);
if (err)
return 0xFF;
for(;;)
{
res = getReadResultNetworkDict (&win32test_Data, nodeId, data, size, &abortCode);
if (res != SDO_UPLOAD_IN_PROGRESS)
break;
sleep_proc(1);
continue;
}
closeSDOtransfer(&win32test_Data, nodeId, SDO_CLIENT);
if (res == SDO_FINISHED)
return 0;
return 0xFF;
}
int main(int argc, char *argv[])
{
UNS8 node_id = 0;
s_BOARD MasterBoard = {"1", "125K"};
char* dll_file_name;
/* process command line arguments */
if (argc < 2)
{
printf("USAGE: win32test node_id [dll_file_name]\n");
return 1;
}
node_id = atoi(argv[1]);
if (node_id < 2 || node_id > 127)
{
printf("ERROR: node_id shoule be >=2 and <= 127\n");
return 1;
}
if (argc > 2)
dll_file_name = argv[2];
else
dll_file_name = "can_uvccm_win32.dll";
// load can driver
if (!LoadCanDriver(dll_file_name))
{
printf("ERROR: could not load diver %s\n", dll_file_name);
return 1;
}
if (canOpen(&MasterBoard,&win32test_Data))
{
/* Defining the node Id */
setNodeId(&win32test_Data, 0x01);
/* init */
setState(&win32test_Data, Initialisation);
/****************************** START *******************************/
/* Put the master in operational mode */
setState(&win32test_Data, Operational);
/* Ask slave node to go in operational mode */
masterSendNMTstateChange (&win32test_Data, 0, NMT_Start_Node);
printf("\nStarting node %d (%xh) ...\n",(int)node_id,(int)node_id);
/* wait untill mode will switch to operational state*/
if (GetChangeStateResults(node_id, Operational, 3000) != 0xFF)
{
/* modify Client SDO 1 Parameter */
UNS32 COB_ID_Client_to_Server_Transmit_SDO = 0x600 + node_id;
UNS32 COB_ID_Server_to_Client_Receive_SDO = 0x580 + node_id;
UNS32 Node_ID_of_the_SDO_Server = node_id;
UNS8 ExpectedSize = sizeof (UNS32);
if (OD_SUCCESSFUL == setODentry(&win32test_Data, 0x1280, 1, &COB_ID_Client_to_Server_Transmit_SDO, &ExpectedSize, RW)
&& OD_SUCCESSFUL == setODentry(&win32test_Data, 0x1280, 2, &COB_ID_Server_to_Client_Receive_SDO, &ExpectedSize, RW)
&& OD_SUCCESSFUL == setODentry(&win32test_Data, 0x1280, 3, &Node_ID_of_the_SDO_Server, &ExpectedSize, RW))
{
UNS32 dev_type = 0;
char device_name[64]="";
char hw_ver[64]="";
char sw_ver[64]="";
UNS32 vendor_id = 0;
UNS32 prod_code = 0;
UNS32 ser_num = 0;
UNS8 size;
UNS8 res;
printf("\nnode_id: %d (%xh) info\n",(int)node_id,(int)node_id);
printf("********************************************\n");
size = sizeof (dev_type);
res = ReadSDO(node_id, 0x1000, 0, uint32, &dev_type, &size);
printf("device type: %d\n",dev_type & 0xFFFF);
size = sizeof (device_name);
res = ReadSDO(node_id, 0x1008, 0, visible_string, device_name, &size);
printf("device name: %s\n",device_name);
size = sizeof (hw_ver);
res = ReadSDO(node_id, 0x1009, 0, visible_string, hw_ver, &size);
printf("HW version: %s\n",hw_ver);
size = sizeof (sw_ver);
res = ReadSDO(node_id, 0x100A, 0, visible_string, sw_ver, &size);
printf("SW version: %s\n",sw_ver);
size = sizeof (vendor_id);
res = ReadSDO(node_id, 0x1018, 1, uint32, &vendor_id, &size);
printf("vendor id: %d\n",vendor_id);
size = sizeof (prod_code);
res = ReadSDO(node_id, 0x1018, 2, uint32, &prod_code, &size);
printf("product code: %d\n",prod_code);
size = sizeof (ser_num);
res = ReadSDO(node_id, 0x1018, 4, uint32, &ser_num, &size);
printf("serial number: %d\n",ser_num);
printf("********************************************\n");
}
else
{
printf("ERROR: Object dictionary access failed\n");
}
}
else
{
printf("ERROR: node_id %d (%xh) is not responding\n",(int)node_id,(int)node_id);
}
masterSendNMTstateChange (&win32test_Data, 0x02, NMT_Stop_Node);
setState(&win32test_Data, Stopped);
canClose(&win32test_Data);
}
return 0;
}