Sam Grove
/
canopen_slavenode
CANfestival - an open source CANopen framework
framework/include/sdo.h
- Committer:
- sam_grove
- Date:
- 2011-05-30
- Revision:
- 0:6219434a0cb5
File content as of revision 0:6219434a0cb5:
/* 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 */ /** @defgroup comobj Communication Objects * @ingroup userapi */ /** @defgroup sdo Service Data Object (SDO) * SDOs provide the access to entries in the CANopen Object Dictionary. * An SDO is made up of at least two CAN messages with different identifiers. * SDO s are always confirmed point-to-point communications services. * @ingroup comobj */ #ifndef __sdo_h__ #define __sdo_h__ struct struct_s_transfer; #include "canopen_timer.h" typedef void (*SDOCallback_t)(CO_Data* d, UNS8 nodeId); /* The Transfer structure Used to store the different segments of - a SDO received before writing in the dictionary - the reading of the dictionary to put on a SDO to transmit */ struct struct_s_transfer { UNS8 nodeId; /**<own ID if server, or node ID of the server if client */ UNS8 whoami; /**< Takes the values SDO_CLIENT or SDO_SERVER */ UNS8 state; /**< state of the transmission : Takes the values SDO_... */ UNS8 toggle; UNS32 abortCode; /**< Sent or received */ /**< index and subindex of the dictionary where to store */ /**< (for a received SDO) or to read (for a transmit SDO) */ UNS16 index; UNS8 subIndex; UNS32 count; /**< Number of data received or to be sent. */ UNS32 offset; /**< stack pointer of data[] * Used only to tranfer part of a line to or from a SDO. * offset is always pointing on the next free cell of data[]. * WARNING s_transfer.data is subject to ENDIANISATION * (with respect to CANOPEN_BIG_ENDIAN) */ UNS8 data [SDO_MAX_LENGTH_TRANSFERT]; #ifdef SDO_DYNAMIC_BUFFER_ALLOCATION UNS8 *dynamicData; UNS32 dynamicDataSize; #endif //SDO_DYNAMIC_BUFFER_ALLOCATION UNS8 dataType; /**< Defined in objdictdef.h Value is visible_string * if it is a string, any other value if it is not a string, * like 0. In fact, it is used only if client. */ TIMER_HANDLE timer; /**< Time counter to implement a timeout in milliseconds. * It is automatically incremented whenever * the line state is in SDO_DOWNLOAD_IN_PROGRESS or * SDO_UPLOAD_IN_PROGRESS, and reseted to 0 * when the response SDO have been received. */ SDOCallback_t Callback; /**< The user callback func to be called at SDO transaction end */ }; typedef struct struct_s_transfer s_transfer; #include "data.h" struct BODY{ UNS8 data[8]; /**< The 8 bytes data of the SDO */ }; /* The SDO structure ...*/ struct struct_s_SDO { UNS8 nodeId; /**< In any case, Node ID of the server (case sender or receiver).*/ struct BODY body; }; typedef struct struct_s_SDO s_SDO; /*! ** Called by writeNetworkDict ** ** @param d ** @param nodeId ** @param index ** @param subIndex ** @param count ** @param dataType ** @param data ** @param Callback ** @param endianize ** ** @return **/ UNS8 _writeNetworkDict (CO_Data* d, UNS8 nodeId, UNS16 index, UNS8 subIndex, UNS32 count, UNS8 dataType, void *data, SDOCallback_t Callback, UNS8 endianize); /** * @brief Reset of a SDO exchange on timeout. * Send a SDO abort. * @param *d Pointer on a CAN object data structure * @param id */ void SDOTimeoutAlarm(CO_Data* d, UNS32 id); /** * @brief Reset all SDO buffers. * @param *d Pointer on a CAN object data structure */ void resetSDO (CO_Data* d); /** * @brief Copy the data received from the SDO line transfert to the object dictionary. * @param *d Pointer on a CAN object data structure * @param line SDO line * @return SDO error code if error. Else, returns 0. */ UNS32 SDOlineToObjdict (CO_Data* d, UNS8 line); /** * @brief Copy the data from the object dictionary to the SDO line for a network transfert. * @param *d Pointer on a CAN object data structure * @param line SDO line * @return SDO error code if error. Else, returns 0. */ UNS32 objdictToSDOline (CO_Data* d, UNS8 line); /** * @brief Copy data from an existant line in the argument "* data" * @param d Pointer on a CAN object data structure * @param line SDO line * @param nbBytes * @param *data Pointer on the data * @return 0xFF if error. Else, returns 0. */ UNS8 lineToSDO (CO_Data* d, UNS8 line, UNS32 nbBytes, UNS8 * data); /** * @brief Add data to an existant line * @param d Pointer on a CAN object data structure * @param line SDO line * @param nbBytes * @param *data Pointer on the data * @return 0xFF if error. Else, returns 0. */ UNS8 SDOtoLine (CO_Data* d, UNS8 line, UNS32 nbBytes, UNS8 * data); /** * @brief Called when an internal SDO abort occurs. * Release the line * Only if server * * If client, the line must be released manually in the core application. * The reason of that is to permit the program to read the transfers structure before its reset, * because many informations are stored on it : index, subindex, data received or trasmited, ... * In all cases, sends a SDO abort. * @param *d Pointer on a CAN object data structure * @param nodeId * @param whoami * @param index * @param subIndex * @param abortCode * @return 0 */ UNS8 failedSDO (CO_Data* d, UNS8 nodeId, UNS8 whoami, UNS16 index, UNS8 subIndex, UNS32 abortCode); /** * @brief Reset an unused line. * @param *d Pointer on a CAN object data structure * @param line SDO line */ void resetSDOline (CO_Data* d, UNS8 line); /** * @brief Initialize some fields of the structure. * @param *d Pointer on a CAN object data structure * @param line * @param nodeId * @param index * @param subIndex * @param state * @return 0 */ UNS8 initSDOline (CO_Data* d, UNS8 line, UNS8 nodeId, UNS16 index, UNS8 subIndex, UNS8 state); /** * @brief Search for an unused line in the transfers array * to store a new SDO. * ie a line which value of the field "state" is "SDO_RESET" * An unused line have the field "state" at the value SDO_RESET * @param *d Pointer on a CAN object data structure * @param whoami Create the line for a SDO_SERVER or SDO_CLIENT. * @param *line Pointer on a SDO line * @return 0xFF if all the lines are on use. Else, return 0. */ UNS8 getSDOfreeLine (CO_Data* d, UNS8 whoami, UNS8 *line); /** * @brief Search for the line, in the transfers array, which contains the * beginning of the reception of a fragmented SDO * @param *d Pointer on a CAN object data structure * @param nodeId correspond to the message node-id * @param whoami takes 2 values : look for a line opened as SDO_CLIENT or SDO_SERVER * @param *line Pointer on a SDO line * @return 0xFF if error. Else, return 0 */ UNS8 getSDOlineOnUse (CO_Data* d, UNS8 nodeId, UNS8 whoami, UNS8 *line); /** * @brief Search for the line, in the transfers array, which contains the * beginning of the reception of a fragmented SDO * * Because getSDOlineOnUse() does not return any line in state \c SDO_ABORTED_INTERNAL, * this funtion is used to return them, too. * * @param *d Pointer on a CAN object data structure * @param nodeId correspond to the message node-id * @param whoami takes 2 values : look for a line opened as SDO_CLIENT or SDO_SERVER * @param *line Pointer on a SDO line * @return 0xFF if error. Else, return 0 */ UNS8 getSDOlineToClose (CO_Data* d, UNS8 nodeId, UNS8 whoami, UNS8 *line); /** * @brief Close a transmission. * @param *d Pointer on a CAN object data structure * @param nodeId Node id of the server if both server or client * @param whoami Line opened as SDO_CLIENT or SDO_SERVER */ UNS8 closeSDOtransfer (CO_Data* d, UNS8 nodeId, UNS8 whoami); /** * @brief Bytes in the line structure which must be transmited (or received) * @param *d Pointer on a CAN object data structure * @param line SDO line * @param *nbBytes Pointer on nbBytes * @return 0. */ UNS8 getSDOlineRestBytes (CO_Data* d, UNS8 line, UNS32 * nbBytes); /** * @brief Store in the line structure the nb of bytes which must be transmited (or received) * @param *d Pointer on a CAN object data structure * @param line SDO line * @param nbBytes * @return 0 if success, 0xFF if error. */ UNS8 setSDOlineRestBytes (CO_Data* d, UNS8 line, UNS32 nbBytes); /** * @brief Transmit a SDO frame on the bus bus_id * @param *d Pointer on a CAN object data structure * @param whoami Takes 2 values : SDO_CLIENT or SDO_SERVER * @param sdo SDO Structure which contains the sdo to transmit * @return canSend(bus_id,&m) or 0xFF if error. */ UNS8 sendSDO (CO_Data* d, UNS8 whoami, s_SDO sdo); /** * @brief Transmit a SDO error to the client. The reasons may be : * Read/Write to a undefined object * Read/Write to a undefined subindex * Read/write a not valid length object * Write a read only object * @param *d Pointer on a CAN object data structure * @param whoami takes 2 values : SDO_CLIENT or SDO_SERVER * @param nodeId * @param index * @param subIndex * @param abortCode * @return 0 */ UNS8 sendSDOabort (CO_Data* d, UNS8 whoami, UNS8 nodeId, UNS16 index, UNS8 subIndex, UNS32 abortCode); /** * @brief Treat a SDO frame reception * call the function sendSDO * @param *d Pointer on a CAN object data structure * @param *m Pointer on a CAN message structure * @return code : * - 0xFF if error * - 0x80 if transfert aborted by the server * - 0x0 ok */ UNS8 proceedSDO (CO_Data* d, Message *m); /** * @ingroup sdo * @brief Used to send a SDO request frame to write the data at the index and subIndex indicated * @param *d Pointer to a CAN object data structure * @param nodeId Node Id of the slave * @param index At index indicated * @param subIndex At subIndex indicated * @param count number of bytes to write in the dictionnary. * @param dataType (defined in objdictdef.h) : put "visible_string" for strings, 0 for integers or reals or other value. * @param *data Pointer to data * @return * - 0 is returned upon success. * - 0xFE is returned when no sdo client to communicate with node. * - 0xFF is returned when error occurs. */ UNS8 writeNetworkDict (CO_Data* d, UNS8 nodeId, UNS16 index, UNS8 subIndex, UNS32 count, UNS8 dataType, void *data); /** * @ingroup sdo * @brief Used to send a SDO request frame to write in a distant node dictionnary. * @details The function Callback which must be defined in the user code is called at the * end of the exchange. (on succes or abort). * @param *d Pointer to a CAN object data structure * @param nodeId Node Id of the slave * @param index At index indicated * @param subIndex At subIndex indicated * @param count number of bytes to write in the dictionnary. * @param dataType (defined in objdictdef.h) : put "visible_string" for strings, 0 for integers or reals or other value. * @param *data Pointer to data * @param Callback Callback function * @return * - 0 is returned upon success. * - 0xFE is returned when no sdo client to communicate with node. * - 0xFF is returned when error occurs. */ UNS8 writeNetworkDictCallBack (CO_Data* d, UNS8 nodeId, UNS16 index, UNS8 subIndex, UNS32 count, UNS8 dataType, void *data, SDOCallback_t Callback); /** * @ingroup sdo * @brief Used to send a SDO request frame to write in a distant node dictionnary. * @details The function Callback which must be defined in the user code is called at the * end of the exchange. (on succes or abort). First free SDO client parameter is * automatically initialized for specific node if not already defined. * @param *d Pointer to a CAN object data structure * @param nodeId Node Id of the slave * @param index At index indicated * @param subIndex At subIndex indicated * @param count number of bytes to write in the dictionnary. * @param dataType (defined in objdictdef.h) : put "visible_string" for strings, 0 for integers or reals or other value. * @param *data Pointer to data * @param Callback Callback function * @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 * - 0 is returned upon success. * - 0xFF is returned when error occurs. */ UNS8 writeNetworkDictCallBackAI (CO_Data* d, UNS8 nodeId, UNS16 index, UNS8 subIndex, UNS32 count, UNS8 dataType, void *data, SDOCallback_t Callback, UNS8 endianize); /** * @ingroup sdo * @brief Used to send a SDO request frame to read. * @param *d Pointer to a CAN object data structure * @param nodeId Node Id of the slave * @param index At index indicated * @param subIndex At subIndex indicated * @param dataType (defined in objdictdef.h) : put "visible_string" for strings, 0 for integers or reals or other value. * @return * - 0 is returned upon success. * - 0xFE is returned when no sdo client to communicate with node. * - 0xFF is returned when error occurs. */ UNS8 readNetworkDict (CO_Data* d, UNS8 nodeId, UNS16 index, UNS8 subIndex, UNS8 dataType); /** * @ingroup sdo * @brief Used to send a SDO request frame to read in a distant node dictionnary. * @details The function Callback which must be defined in the user code is called at the * end of the exchange. (on succes or abort). * @param *d Pointer on a CAN object data structure * @param nodeId Node Id of the slave * @param index At index indicated * @param subIndex At subIndex indicated * @param dataType (defined in objdictdef.h) : put "visible_string" for strings, 0 for integers or reals or other value. * @param Callback Callback function * @return * - 0 is returned upon success. * - 0xFE is returned when no sdo client to communicate with node. * - 0xFF is returned when error occurs. */ UNS8 readNetworkDictCallback (CO_Data* d, UNS8 nodeId, UNS16 index, UNS8 subIndex, UNS8 dataType, SDOCallback_t Callback); /** * @ingroup sdo * @brief Used to send a SDO request frame to read in a distant node dictionnary. * @details The function Callback which must be defined in the user code is called at the * end of the exchange. (on succes or abort). First free SDO client parameter is * automatically initialized for specific node if not already defined. * @param *d Pointer on a CAN object data structure * @param nodeId Node Id of the slave * @param index At index indicated * @param subIndex At subIndex indicated * @param dataType (defined in objdictdef.h) : put "visible_string" for strings, 0 for integers or reals or other value. * @param Callback Callback function * @return * - 0 is returned upon success. * - 0xFF is returned when error occurs. */ UNS8 readNetworkDictCallbackAI (CO_Data* d, UNS8 nodeId, UNS16 index, UNS8 subIndex, UNS8 dataType, SDOCallback_t Callback); /** * @ingroup sdo * @brief Use this function after calling readNetworkDict to get the result. * * @param *d Pointer to a CAN object data structure * @param nodeId Node Id of the slave * @param *data Pointer to the datas * @param *size Pointer to the size * @param *abortCode Pointer to the abortcode. (0 = not available. Else : SDO abort code. (received if return SDO_ABORTED_RCV) * * * @return * - SDO_FINISHED // datas are available * - SDO_ABORTED_RCV // Transfert failed (abort SDO received) * - SDO_ABORTED_INTERNAL // Transfert failed (internal abort) * - SDO_UPLOAD_IN_PROGRESS // Datas are not yet available * - SDO_DOWNLOAD_IN_PROGRESS // Download is in progress * \n\n * example : * @code * UNS32 data; * UNS8 size; * readNetworkDict(0, 0x05, 0x1016, 1, 0) // get the data index 1016 subindex 1 of node 5 * while (getReadResultNetworkDict (0, 0x05, &data, &size) == SDO_UPLOAD_IN_PROGRESS); * @endcode */ UNS8 getReadResultNetworkDict (CO_Data* d, UNS8 nodeId, void* data, UNS32 *size, UNS32 * abortCode); /** * @ingroup sdo * @brief Use this function after calling writeNetworkDict function to get the result of the write. * @details It is mandatory to call this function because it is releasing the line used for the transfer. * @param *d Pointer to a CAN object data structure * @param nodeId Node Id of the slave * @param *abortCode Pointer to the abortcode * - 0 = not available. * - SDO abort code (received if return SDO_ABORTED_RCV) * * @return : * - SDO_FINISHED // datas are available * - SDO_ABORTED_RCV // Transfert failed (abort SDO received) * - SDO_ABORTED_INTERNAL // Transfert failed (Internal abort) * - SDO_DOWNLOAD_IN_PROGRESS // Datas are not yet available * - SDO_UPLOAD_IN_PROGRESS // Upload in progress * \n\n * example : * @code * UNS32 data = 0x50; * UNS8 size; * UNS32 abortCode; * writeNetworkDict(0, 0x05, 0x1016, 1, size, &data) // write the data index 1016 subindex 1 of node 5 * while (getWriteResultNetworkDict (0, 0x05, &abortCode) == SDO_DOWNLOAD_IN_PROGRESS); * @endcode */ UNS8 getWriteResultNetworkDict (CO_Data* d, UNS8 nodeId, UNS32 * abortCode); #endif