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/*
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This file is part of CanFestival, a library implementing CanOpen Stack.
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Copyright (C): Jorge Berzosa
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See COPYING file for copyrights details.
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This library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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This library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with this library; if not, write to the Free Software
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Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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#ifndef __LSS_h__
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#define __LSS_h__
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#define SLSS_ADRESS 0x7E4
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#define MLSS_ADRESS 0x7E5
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#define SDELAY_OFF 0
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#define SDELAY_FIRST 1
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#define SDELAY_SECOND 2
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#define LSS_WAITING_MODE 0
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#define LSS_CONFIGURATION_MODE 1
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/* Switch mode services */
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#define LSS_SM_GLOBAL 4
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#define LSS_SM_SELECTIVE_VENDOR 64
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#define LSS_SM_SELECTIVE_PRODUCT 65
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#define LSS_SM_SELECTIVE_REVISION 66
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#define LSS_SM_SELECTIVE_SERIAL 67
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#define LSS_SM_SELECTIVE_RESP 68
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/* Configuration services */
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#define LSS_CONF_NODE_ID 17
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#define LSS_CONF_BIT_TIMING 19
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#define LSS_CONF_ACT_BIT_TIMING 21
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#define LSS_CONF_STORE 23
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/* Inquire services */
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#define LSS_INQ_VENDOR_ID 90
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#define LSS_INQ_PRODUCT_CODE 91
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#define LSS_INQ_REV_NUMBER 92
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#define LSS_INQ_SERIAL_NUMBER 93
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#define LSS_INQ_NODE_ID 94
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/* Identification services */
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#define LSS_IDENT_REMOTE_VENDOR 70
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#define LSS_IDENT_REMOTE_PRODUCT 71
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#define LSS_IDENT_REMOTE_REV_LOW 72
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#define LSS_IDENT_REMOTE_REV_HIGH 73
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#define LSS_IDENT_REMOTE_SERIAL_LOW 74
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#define LSS_IDENT_REMOTE_SERIAL_HIGH 75
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#define LSS_IDENT_REMOTE_NON_CONF 76
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#define LSS_IDENT_SLAVE 79
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#define LSS_IDENT_NON_CONF_SLAVE 80
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#define LSS_IDENT_FASTSCAN 81
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/*FastScan State Machine*/
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#define LSS_FS_RESET 0
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#define LSS_FS_PROCESSING 1
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#define LSS_FS_CONFIRMATION 2
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typedef void (*LSSCallback_t)(CO_Data* d, UNS8 command);
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typedef void (*lss_StoreConfiguration_t)(CO_Data* d,UNS8*,UNS8*);
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//void _lss_StoreConfiguration(UNS8 *error, UNS8 *spec_error);
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//typedef void (*lss_ChangeBaudRate_t)(CO_Data* d,char*);
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//void _lss_ChangeBaudRate(char *BaudRate);
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struct struct_lss_transfer;
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//#include "timer.h"
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/* The Transfer structure
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* Used to store the different fields of the internal state of the LSS
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*/
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struct struct_lss_transfer {
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UNS8 state; /* state of the transmission : Takes the values LSS_... */
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UNS8 command; /* the LSS command of the transmision */
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UNS8 mode; /* LSS mode */
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UNS32 dat1; /* the data from the last msg received */
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UNS8 dat2;
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UNS8 nodeID; /* the new nodeid stored to update the nodeid when switching to LSS operational*/
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UNS8 addr_sel_match; /* the matching mask for the LSS Switch Mode Selective service */
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UNS8 addr_ident_match; /* the matching mask for the LSS Identify Remote Slaves service*/
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char *baudRate; /* the new baudrate stored to update the node baudrate when a Activate Bit
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* Timing Parameters is received*/
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UNS16 switchDelay; /* the period of the two delay */
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UNS8 switchDelayState; /* the state machine for the switchDelay */
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CAN_HANDLE canHandle_t;
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/* Time counters to implement a timeout in milliseconds.*/
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TIMER_HANDLE timerMSG; /* timerMSG is automatically incremented whenever
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* the lss state is in LSS_TRANS_IN_PROGRESS, and reseted to 0
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* when the response LSS have been received.
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*/
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TIMER_HANDLE timerSDELAY; /* timerSDELAY is automatically incremented whenever
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* the lss switchDelayState is in SDELAY_FIRST or SDELAY_SECOND, and reseted to 0
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* when the two periods have been expired.
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*/
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LSSCallback_t Callback; /* The user callback func to be called at LSS transaction end */
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UNS8 LSSanswer; /* stores if a message has been received during a timer period */
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#ifdef CO_ENABLE_LSS_FS
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UNS32 IDNumber; /* in the master, the LSS address parameter which it currently tries to identify.
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* in the slave, the LSS address parameter which is being checked (LSS-ID[sub]). */
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UNS8 BitChecked; /* bits of the current IDNumber that are currently checked */
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UNS8 LSSSub; /* which part of the LSS-ID is currently checked in IDNumber */
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UNS8 LSSNext; /* which LSSSub value will be used in the next request */
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UNS8 LSSPos; /* in the slave, which part of the LSS-ID is currently processed*/
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UNS8 FastScan_SM; /* the state machine for the FastScan protocol */
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TIMER_HANDLE timerFS; /* timerFS is automatically incremented when the FastScan service
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* has been requested and reseted to 0 when the protocol ends.
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*/
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#endif
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};
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#ifdef CO_ENABLE_LSS
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typedef struct struct_lss_transfer lss_transfer_t;
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#else
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typedef UNS8 lss_transfer_t;
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#endif
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void startLSS(CO_Data* d);
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void stopLSS(CO_Data* d);
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/** transmit a LSS message
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* command is the LSS command specifier
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* dat1 and dat2 are pointers to optional data (depend on command)
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* return sendLSSMessage(d,command,dat1,dat2)
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*/
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UNS8 sendLSS (CO_Data* d, UNS8 command,void *dat1, void *dat2);
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/** transmit a LSS message on CAN bus
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* comamnd is the LSS command specifier
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* bus_id is MLSS_ADRESS or SLSS_ADRESS depending in d->iam_a_slave.
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* dat1 and dat2 are pointers to optional data (depend on command).
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* return canSend(bus_id,&m)
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*/
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UNS8 sendLSSMessage(CO_Data* d, UNS8 command, void *dat1, void *dat2);
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/** This function is called when the node is receiving a Master LSS message (cob-id = 0x7E5).
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* - Check if there is a callback which will take care of the response. If not return 0 but does nothing.
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* - Stops the timer so the alarm wont raise an error.
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* - return 0 if OK
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*/
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UNS8 proceedLSS_Master (CO_Data* d, Message* m );
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/** This function is called when the node is receiving a Slave LSS message (cob-id = 0x7E4).
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* - Call the callback function or send the response message depending on the LSS comand within m.
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* - return 0 if OK
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*/
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UNS8 proceedLSS_Slave (CO_Data* d, Message* m );
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/** Used by the Master application to send a LSS command, WITHOUT response, to the slave.
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* command: the LSS command. LSS_...
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* dat1 and dat2: pointers to optional data (depend on command).
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* return sendLSS(d,command,dat1,dat2)
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*/
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//UNS8 configNetworkNode(CO_Data* d, UNS8 command, void *dat1, void* dat2);
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/** Used by the Master application to send a LSS command, WITH response, to the slave.
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* The function Callback, which must be defined in the user code, is called at the
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* end of the exchange (on succes or abort) and can be NULL.
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* The LSS_MSG_TIMER timer is started to control the timeout
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* return sendLSS(d,command,dat1,dat2)
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*/
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UNS8 configNetworkNode (CO_Data* d, UNS8 command, void *dat1, void* dat2, LSSCallback_t Callback);
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/** Use this function after a configNetworkNode or configNetworkNodeCallBack to get the result.
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Returns : LSS_RESET // Transmission not started. Init state.
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LSS_FINISHED // data are available
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LSS_ABORTED_INTERNAL // Aborted but not because of an abort message.
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LSS_TRANS_IN_PROGRESS // Data not yet available
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* command: the LSS command (unused).
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* example:
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* UNS32 dat1;
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* UNS8 dat2;
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res=configNetworkNodeCallBack(&_Data,LSS_INQ_NODE_ID,0,0,NULL); // inquire the nodeID
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while (getConfigResultNetworkNode (&_Data, LSS_INQ_NODE_ID, &dat1, &dat2) != LSS_TRANS_IN_PROGRESS);
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*/
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UNS8 getConfigResultNetworkNode (CO_Data* d, UNS8 command, UNS32* dat1, UNS8* dat2);
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#endif
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