/*
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
* @brief Responsible for accessing the object dictionary.
*
* This file contains functions for accessing the object dictionary and
* variables that are contained by the object dictionary.
* Accessing the object dictionary contains setting local variables
* as PDOs and accessing (read/write) all entries of the object dictionary
* @warning Only the basic entries of an object dictionary are included
* at the moment.
*/
/** @defgroup od Object Dictionary Management
* @brief The Object Dictionary is the heart of each CANopen device containing all communication and application objects.
* @ingroup userapi
*/
#ifndef __objacces_h__
#define __objacces_h__
#include <applicfg.h>
typedef UNS32 (*valueRangeTest_t)(UNS8 typeValue, void *Value);
typedef void (* storeODSubIndex_t)(CO_Data* d, UNS16 wIndex, UNS8 bSubindex);
void _storeODSubIndex (CO_Data* d, UNS16 wIndex, UNS8 bSubindex);
/**
* @ingroup od
* @brief Print MSG_WAR (s) if error to the access to the object dictionary occurs.
*
* You must uncomment the lines in the file objaccess.c :\n
* //#define DEBUG_CAN\n
* //#define DEBUG_WAR_CONSOLE_ON\n
* //#define DEBUG_ERR_CONSOLE_ON\n\n
* Beware that sometimes, we force the sizeDataDict or sizeDataGiven to 0, when we wants to use
* this function but we do not have the access to the right value. One example is
* getSDOerror(). So do not take attention to these variables if they are null.
* @param index
* @param subIndex
* @param sizeDataDict Size of the data defined in the dictionary
* @param sizeDataGiven Size data given by the user.
* @param code error code to print. (SDO abort code. See file def.h)
* @return
*/
UNS8 accessDictionaryError(UNS16 index, UNS8 subIndex,
UNS32 sizeDataDict, UNS32 sizeDataGiven, UNS32 code);
/* _getODentry() Reads an entry from the object dictionary.\n
*
* use getODentry() macro to read from object and endianize
* use readLocalDict() macro to read from object and not endianize
*
* @code
* // Example usage:
* UNS8 *pbData;
* UNS8 length;
* UNS32 returnValue;
*
* returnValue = getODentry( (UNS16)0x100B, (UNS8)1,
* (void * *)&pbData, (UNS8 *)&length );
* if( returnValue != SUCCESSFUL )
* {
* // error handling
* }
* @endcode
* @param *d Pointer on a CAN object data structure
* @param wIndex The index in the object dictionary where you want to read
* an entry
* @param bSubindex The subindex of the Index. e.g. mostly subindex 0 is
* used to tell you how many valid entries you can find
* in this index. Look at the canopen standard for further
* information
* @param *pDestData Pointer to the pointer which points to the variable where
* the value of this object dictionary entry should be copied
* @param pExpectedSize This function writes the size of the copied value (in Byte)
* into this variable.
* @param *pDataType Pointer on the type of the data. See objdictdef.h
* @param CheckAccess if other than 0, do not read if the data is Write Only
* [Not used today. Put always 0].
* @param Endianize When not 0, data is endianized into network byte order
* when 0, data is not endianized and copied in machine native
* endianness
* @return OD_SUCCESSFUL or SDO abort code. (See file def.h)
*/
UNS32 _getODentry( CO_Data* d,
UNS16 wIndex,
UNS8 bSubindex,
void * pDestData,
UNS32 * pExpectedSize,
UNS8 * pDataType,
UNS8 checkAccess,
UNS8 endianize);
/**
* @ingroup od
* @brief getODentry() to read from object and endianize
* @param OD Pointer on a CAN object data structure
* @param wIndex The index in the object dictionary where you want to read
* an entry
* @param bSubindex The subindex of the Index. e.g. mostly subindex 0 is
* used to tell you how many valid entries you can find
* in this index. Look at the canopen standard for further
* information
* @param *pDestData Pointer to the pointer which points to the variable where
* the value of this object dictionary entry should be copied
* @param pExpectedSize This function writes the size of the copied value (in Byte)
* into this variable.
* @param *pDataType Pointer on the type of the data. See objdictdef.h
* @param checkAccess if other than 0, do not read if the data is Write Only
* [Not used today. Put always 0].
* @param endianize Set to 1 : endianized into network byte order
* @return OD_SUCCESSFUL or SDO abort code. (See file def.h)
*/
#define getODentry( OD, wIndex, bSubindex, pDestData, pExpectedSize, \
pDataType, checkAccess) \
_getODentry( OD, wIndex, bSubindex, pDestData, pExpectedSize, \
pDataType, checkAccess, 1)
/**
* @ingroup od
* @brief readLocalDict() reads an entry from the object dictionary, but in
* contrast to getODentry(), readLocalDict() doesn't endianize entry and reads
* entry in machine native endianness.
* @param OD Pointer on a CAN object data structure
* @param wIndex The index in the object dictionary where you want to read
* an entry
* @param bSubindex The subindex of the Index. e.g. mostly subindex 0 is
* used to tell you how many valid entries you can find
* in this index. Look at the canopen standard for further
* information
* @param *pDestData Pointer to the pointer which points to the variable where
* the value of this object dictionary entry should be copied
* @param pExpectedSize This function writes the size of the copied value (in Byte)
* into this variable.
* @param *pDataType Pointer on the type of the data. See objdictdef.h
* @param checkAccess if other than 0, do not read if the data is Write Only
* [Not used today. Put always 0].
* @param endianize Set to 0, data is not endianized and copied in machine native
* endianness
* @return OD_SUCCESSFUL or SDO abort code. (See file def.h)
*/
#define readLocalDict( OD, wIndex, bSubindex, pDestData, pExpectedSize, \
pDataType, checkAccess) \
_getODentry( OD, wIndex, bSubindex, pDestData, pExpectedSize, \
pDataType, checkAccess, 0)
/**
* @brief By this function you can write an entry into the object dictionary
* @param *d Pointer on a CAN object data structure
* @param wIndex The index in the object dictionary where you want to write
* an entry
* @param bSubindex The subindex of the Index. e.g. mostly subindex 0 is
* used to tell you how many valid entries you can find
* in this index. Look at the canopen standard for further
* information
* @param *pSourceData Pointer to the variable that holds the value that should
* be copied into the object dictionary
* @param *pExpectedSize The size of the value (in Byte).
* @param checkAccess if other than 0, do not read if the data is Read Only or Constant
* @param endianize When not 0, data is endianized into network byte order
* when 0, data is not endianized and copied in machine native
* endianness
* @return OD_SUCCESSFUL or SDO abort code. (See file def.h)
*/
UNS32 _setODentry( CO_Data* d,
UNS16 wIndex,
UNS8 bSubindex,
void * pSourceData,
UNS32 * pExpectedSize,
UNS8 checkAccess,
UNS8 endianize);
/**
* @ingroup od
* @brief setODentry converts SourceData from network byte order to machine native
* format, and writes that to OD.
* @code
* // Example usage:
* UNS8 B;
* B = 0xFF; // set transmission type
*
* retcode = setODentry( (UNS16)0x1800, (UNS8)2, &B, sizeof(UNS8), 1 );
* @endcode
* @param d Pointer on a CAN object data structure
* @param wIndex The index in the object dictionary where you want to write
* an entry
* @param bSubindex The subindex of the Index. e.g. mostly subindex 0 is
* used to tell you how many valid entries you can find
* in this index. Look at the canopen standard for further
* information
* @param *pSourceData Pointer to the variable that holds the value that should
* be copied into the object dictionary
* @param *pExpectedSize The size of the value (in Byte).
* @param checkAccess if other than 0, do not read if the data is Read Only or Constant
* @param endianize Set to 1 : endianized into network byte order
* @return OD_SUCCESSFUL or SDO abort code. (See file def.h)
*/
#define setODentry( d, wIndex, bSubindex, pSourceData, pExpectedSize, checkAccess) \
_setODentry( d, wIndex, bSubindex, pSourceData, pExpectedSize, checkAccess, 1)
/**
* @ingroup od
* @brief Writes machine native SourceData to OD.
* @code
* // Example usage:
* UNS8 B;
* B = 0xFF; // set transmission type
*
* retcode = writeLocalDict( (UNS16)0x1800, (UNS8)2, &B, sizeof(UNS8), 1 );
* @endcode
* @param d Pointer on a CAN object data structure
* @param wIndex The index in the object dictionary where you want to write
* an entry
* @param bSubindex The subindex of the Index. e.g. mostly subindex 0 is
* used to tell you how many valid entries you can find
* in this index. Look at the canopen standard for further
* information
* @param *pSourceData Pointer to the variable that holds the value that should
* be copied into the object dictionary
* @param *pExpectedSize The size of the value (in Byte).
* @param checkAccess if other than 0, do not read if the data is Read Only or Constant
* @param endianize Data is not endianized and copied in machine native endianness
* @return OD_SUCCESSFUL or SDO abort code. (See file def.h)
*/
#define writeLocalDict( d, wIndex, bSubindex, pSourceData, pExpectedSize, checkAccess) \
_setODentry( d, wIndex, bSubindex, pSourceData, pExpectedSize, checkAccess, 0)
/**
* @brief Scan the index of object dictionary. Used only by setODentry and getODentry.
* @param *d Pointer on a CAN object data structure
* @param wIndex
* @param *errorCode : OD_SUCCESSFUL if index foundor SDO abort code. (See file def.h)
* @param **Callback
* @return NULL if index not found. Else : return the table part of the object dictionary.
*/
const indextable * scanIndexOD (CO_Data* d, UNS16 wIndex, UNS32 *errorCode, ODCallback_t **Callback);
UNS32 RegisterSetODentryCallBack(CO_Data* d, UNS16 wIndex, UNS8 bSubindex, ODCallback_t Callback);
#endif /* __objacces_h__ */