examples/gene_SYNC_HCS12/objdict.c
author Robert Lehmann <robert.lehmann@sitec-systems.de>
Tue, 28 Jul 2015 16:36:55 +0200
changeset 793 72e9e1064432
parent 80 37354e408645
permissions -rwxr-xr-x
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.

/* File generated by gen_cfile.py. Should not be modified. */

#include "objdict.h"

/**************************************************************************/
/* Declaration of the mapped variables                                    */
/**************************************************************************/
UNS16 acceptanceFilter1 = 0x0;		/* Mapped at index 0x2015, subindex 0x00 */
UNS16 acceptanceFilter2 = 0x0;		/* Mapped at index 0x2016, subindex 0x00 */
UNS16 acceptanceFilter3 = 0x0;		/* Mapped at index 0x2017, subindex 0x00 */
UNS16 acceptanceFilter4 = 0x0;		/* Mapped at index 0x2018, subindex 0x00 */
UNS16 mask1 = 0x0;		/* Mapped at index 0x2019, subindex 0x00 */
UNS16 mask2 = 0x0;		/* Mapped at index 0x2020, subindex 0x00 */
UNS16 mask3 = 0x0;		/* Mapped at index 0x2021, subindex 0x00 */
UNS16 mask4 = 0x0;		/* Mapped at index 0x2022, subindex 0x00 */
UNS8 applyDownloadedFilters = 0x0;		/* Mapped at index 0x2023, subindex 0x00 */

/**************************************************************************/
/* Declaration of the value range types                                   */
/**************************************************************************/

UNS32 gene_SYNC_valueRangeTest (UNS8 typeValue, void * value)
{
  switch (typeValue) {
  }
  return 0;
}

/**************************************************************************/
/* The node id                                                            */
/**************************************************************************/
/* node_id default value.*/
UNS8 gene_SYNC_bDeviceNodeId = 0x03;

/**************************************************************************/
/* Array of message processing information */

const UNS8 gene_SYNC_iam_a_slave = 1;

TIMER_HANDLE gene_SYNC_heartBeatTimers[1];

/*
$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$

                               OBJECT DICTIONARY

$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$
*/

/* index 0x1000 :   Device Type. */
                    UNS32 gene_SYNC_obj1000 = 0x0;	/* 0 */
                    subindex gene_SYNC_Index1000[] = 
                     {
                       { RO, uint32, sizeof (UNS32), (void*)&gene_SYNC_obj1000 }
                     };

/* index 0x1001 :   Error Register. */
                    UNS8 gene_SYNC_obj1001 = 0x0;	/* 0 */
                    subindex gene_SYNC_Index1001[] = 
                     {
                       { RO, uint8, sizeof (UNS8), (void*)&gene_SYNC_obj1001 }
                     };

/* index 0x1005 :   SYNC COB ID. */
                    UNS32 gene_SYNC_obj1005 = 0x40000080;	/* 1073741952 */
                    ODCallback_t gene_SYNC_Index1005_callbacks[] = 
                     {
                       NULL,
                     };
                    subindex gene_SYNC_Index1005[] = 
                     {
                       { RW, uint32, sizeof (UNS32), (void*)&gene_SYNC_obj1005 }
                     };

/* index 0x1006 :   Communication / Cycle Period. */
                    UNS32 gene_SYNC_obj1006 = 0x2710;	/* 10000 */
                    ODCallback_t gene_SYNC_Index1006_callbacks[] = 
                     {
                       NULL,
                     };
                    subindex gene_SYNC_Index1006[] = 
                     {
                       { RW, uint32, sizeof (UNS32), (void*)&gene_SYNC_obj1006 }
                     };

/* index 0x1008 :   Manufacturer Device Name. */
                    UNS8 gene_SYNC_obj1008[10] = "GENE_SYNC";
                    subindex gene_SYNC_Index1008[] = 
                     {
                       { RO, visible_string, sizeof (gene_SYNC_obj1008), (void*)&gene_SYNC_obj1008 }
                     };

/* index 0x1016 :   Consumer Heartbeat Time */
                    UNS8 gene_SYNC_highestSubIndex_obj1016 = 0;
                    UNS32 gene_SYNC_obj1016[];
                    subindex gene_SYNC_Index1016[];

/* index 0x1017 :   Producer Heartbeat Time */ 
                    UNS16 gene_SYNC_obj1017 = 0x0;   /* 0 */

/* index 0x1018 :   Identity. */
                    UNS8 gene_SYNC_highestSubIndex_obj1018 = 4; /* number of subindex - 1*/
                    UNS32 gene_SYNC_obj1018_Vendor_ID = 0x0;	/* 0 */
                    UNS32 gene_SYNC_obj1018_Product_Code = 0x0;	/* 0 */
                    UNS32 gene_SYNC_obj1018_Revision_Number = 0x0;	/* 0 */
                    UNS32 gene_SYNC_obj1018_Serial_Number = 0x0;	/* 0 */
                    subindex gene_SYNC_Index1018[] = 
                     {
                       { RO, uint8, sizeof (UNS8), (void*)&gene_SYNC_highestSubIndex_obj1018 },
                       { RO, uint32, sizeof (UNS32), (void*)&gene_SYNC_obj1018_Vendor_ID },
                       { RO, uint32, sizeof (UNS32), (void*)&gene_SYNC_obj1018_Product_Code },
                       { RO, uint32, sizeof (UNS32), (void*)&gene_SYNC_obj1018_Revision_Number },
                       { RO, uint32, sizeof (UNS32), (void*)&gene_SYNC_obj1018_Serial_Number }
                     };

/* index 0x1200 :   Server SDO Parameter. */
                    UNS8 gene_SYNC_highestSubIndex_obj1200 = 2; /* number of subindex - 1*/
                    UNS32 gene_SYNC_obj1200_COB_ID_Client_to_Server_Receive_SDO = 0x0;	/* 0 */
                    UNS32 gene_SYNC_obj1200_COB_ID_Server_to_Client_Transmit_SDO = 0x0;	/* 0 */
                    subindex gene_SYNC_Index1200[] = 
                     {
                       { RO, uint8, sizeof (UNS8), (void*)&gene_SYNC_highestSubIndex_obj1200 },
                       { RO, uint32, sizeof (UNS32), (void*)&gene_SYNC_obj1200_COB_ID_Client_to_Server_Receive_SDO },
                       { RO, uint32, sizeof (UNS32), (void*)&gene_SYNC_obj1200_COB_ID_Server_to_Client_Transmit_SDO }
                     };

/* index 0x2015 :   Mapped variable acceptanceFilter1 */
                    subindex gene_SYNC_Index2015[] = 
                     {
                       { RW, uint16, sizeof (UNS16), (void*)&acceptanceFilter1 }
                     };

/* index 0x2016 :   Mapped variable acceptanceFilter2 */
                    subindex gene_SYNC_Index2016[] = 
                     {
                       { RW, uint16, sizeof (UNS16), (void*)&acceptanceFilter2 }
                     };

/* index 0x2017 :   Mapped variable acceptanceFilter3 */
                    subindex gene_SYNC_Index2017[] = 
                     {
                       { RW, uint16, sizeof (UNS16), (void*)&acceptanceFilter3 }
                     };

/* index 0x2018 :   Mapped variable acceptanceFilter4 */
                    subindex gene_SYNC_Index2018[] = 
                     {
                       { RW, uint16, sizeof (UNS16), (void*)&acceptanceFilter4 }
                     };

/* index 0x2019 :   Mapped variable mask1 */
                    subindex gene_SYNC_Index2019[] = 
                     {
                       { RW, uint16, sizeof (UNS16), (void*)&mask1 }
                     };

/* index 0x2020 :   Mapped variable mask2 */
                    subindex gene_SYNC_Index2020[] = 
                     {
                       { RW, uint16, sizeof (UNS16), (void*)&mask2 }
                     };

/* index 0x2021 :   Mapped variable mask3 */
                    subindex gene_SYNC_Index2021[] = 
                     {
                       { RW, uint16, sizeof (UNS16), (void*)&mask3 }
                     };

/* index 0x2022 :   Mapped variable mask4 */
                    subindex gene_SYNC_Index2022[] = 
                     {
                       { RW, uint16, sizeof (UNS16), (void*)&mask4 }
                     };

/* index 0x2023 :   Mapped variable applyDownloadedFilters */
                    subindex gene_SYNC_Index2023[] = 
                     {
                       { RW, uint8, sizeof (UNS8), (void*)&applyDownloadedFilters }
                     };

const indextable gene_SYNC_objdict[] = 
{
  { (subindex*)gene_SYNC_Index1000,sizeof(gene_SYNC_Index1000)/sizeof(gene_SYNC_Index1000[0]), 0x1000},
  { (subindex*)gene_SYNC_Index1001,sizeof(gene_SYNC_Index1001)/sizeof(gene_SYNC_Index1001[0]), 0x1001},
  { (subindex*)gene_SYNC_Index1005,sizeof(gene_SYNC_Index1005)/sizeof(gene_SYNC_Index1005[0]), 0x1005},
  { (subindex*)gene_SYNC_Index1006,sizeof(gene_SYNC_Index1006)/sizeof(gene_SYNC_Index1006[0]), 0x1006},
  { (subindex*)gene_SYNC_Index1008,sizeof(gene_SYNC_Index1008)/sizeof(gene_SYNC_Index1008[0]), 0x1008},
  { (subindex*)gene_SYNC_Index1018,sizeof(gene_SYNC_Index1018)/sizeof(gene_SYNC_Index1018[0]), 0x1018},
  { (subindex*)gene_SYNC_Index1200,sizeof(gene_SYNC_Index1200)/sizeof(gene_SYNC_Index1200[0]), 0x1200},
  { (subindex*)gene_SYNC_Index2015,sizeof(gene_SYNC_Index2015)/sizeof(gene_SYNC_Index2015[0]), 0x2015},
  { (subindex*)gene_SYNC_Index2016,sizeof(gene_SYNC_Index2016)/sizeof(gene_SYNC_Index2016[0]), 0x2016},
  { (subindex*)gene_SYNC_Index2017,sizeof(gene_SYNC_Index2017)/sizeof(gene_SYNC_Index2017[0]), 0x2017},
  { (subindex*)gene_SYNC_Index2018,sizeof(gene_SYNC_Index2018)/sizeof(gene_SYNC_Index2018[0]), 0x2018},
  { (subindex*)gene_SYNC_Index2019,sizeof(gene_SYNC_Index2019)/sizeof(gene_SYNC_Index2019[0]), 0x2019},
  { (subindex*)gene_SYNC_Index2020,sizeof(gene_SYNC_Index2020)/sizeof(gene_SYNC_Index2020[0]), 0x2020},
  { (subindex*)gene_SYNC_Index2021,sizeof(gene_SYNC_Index2021)/sizeof(gene_SYNC_Index2021[0]), 0x2021},
  { (subindex*)gene_SYNC_Index2022,sizeof(gene_SYNC_Index2022)/sizeof(gene_SYNC_Index2022[0]), 0x2022},
  { (subindex*)gene_SYNC_Index2023,sizeof(gene_SYNC_Index2023)/sizeof(gene_SYNC_Index2023[0]), 0x2023},
};

const indextable * gene_SYNC_scanIndexOD (UNS16 wIndex, UNS32 * errorCode, ODCallback_t **callbacks)
{
	int i;
	*callbacks = NULL;
	switch(wIndex){
		case 0x1000: i = 0;break;
		case 0x1001: i = 1;break;
		case 0x1005: i = 2;*callbacks = gene_SYNC_Index1005_callbacks; break;
		case 0x1006: i = 3;*callbacks = gene_SYNC_Index1006_callbacks; break;
		case 0x1008: i = 4;break;
		case 0x1018: i = 5;break;
		case 0x1200: i = 6;break;
		case 0x2015: i = 7;break;
		case 0x2016: i = 8;break;
		case 0x2017: i = 9;break;
		case 0x2018: i = 10;break;
		case 0x2019: i = 11;break;
		case 0x2020: i = 12;break;
		case 0x2021: i = 13;break;
		case 0x2022: i = 14;break;
		case 0x2023: i = 15;break;
		default:
			*errorCode = OD_NO_SUCH_OBJECT;
			return NULL;
	}
	*errorCode = OD_SUCCESSFUL;
	return &gene_SYNC_objdict[i];
}

/* To count at which received SYNC a PDO must be sent.
 * Even if no pdoTransmit are defined, at least one entry is computed
 * for compilations issues.
 */
UNS8 gene_SYNC_count_sync[1] = {0,};

quick_index gene_SYNC_firstIndex = {
  6, /* SDO_SVR */
  0, /* SDO_CLT */
  0, /* PDO_RCV */
  0, /* PDO_RCV_MAP */
  0, /* PDO_TRS */
  0 /* PDO_TRS_MAP */
};

quick_index gene_SYNC_lastIndex = {
  6, /* SDO_SVR */
  0, /* SDO_CLT */
  0, /* PDO_RCV */
  0, /* PDO_RCV_MAP */
  0, /* PDO_TRS */
  0 /* PDO_TRS_MAP */
};

UNS16 gene_SYNC_ObjdictSize = sizeof(gene_SYNC_objdict)/sizeof(gene_SYNC_objdict[0]); 

CO_Data gene_SYNC_Data = CANOPEN_NODE_DATA_INITIALIZER(gene_SYNC);