include/lss.h
author fbeaulier
Tue, 16 Aug 2011 14:15:52 +0200
changeset 663 70fc3603e36f
parent 529 c171e11707c5
child 801 32d146b64a35
permissions -rw-r--r--
timers_unix.c : remove sigint and sigterm catch
sdo : Allow multiple servers
The sdo transfer struct is not anymore referenced by server's node id but by
client or server number in the OD. Node id is not relevant in SDO transfert.
/*
This file is part of CanFestival, a library implementing CanOpen Stack. 

Copyright (C): Jorge Berzosa

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 lss Layer Setting Services Object
 * @brief LSS offers the possibility to inquire and change the settings of certain parameters of the local layers on
 * a CANopen module with LSS Slave capabilities by a CANopen module with LSS Master capabilities via the
 * CAN Network.
 * The following parameters can be inquired and/or changed by the use of LSS:
 *               - Node-ID of the CANopen Slave
 *               - Bit timing parameters of the physical layer (baud rate)
 *               - LSS address (/2/ Identity Object, Index 1018H)
 *  @ingroup comobj
 */
					 
#ifndef __LSS_h__
#define __LSS_h__

#define SLSS_ADRESS	0x7E4
#define MLSS_ADRESS	0x7E5

#define SDELAY_OFF		0
#define SDELAY_FIRST 	1
#define SDELAY_SECOND 	2

#define LSS_WAITING_MODE 0
#define LSS_CONFIGURATION_MODE 1

/* Switch mode services */
#define LSS_SM_GLOBAL 				 4
#define LSS_SM_SELECTIVE_VENDOR 	64
#define LSS_SM_SELECTIVE_PRODUCT 	65
#define LSS_SM_SELECTIVE_REVISION 	66
#define LSS_SM_SELECTIVE_SERIAL 	67
#define LSS_SM_SELECTIVE_RESP 		68
/* Configuration services */
#define LSS_CONF_NODE_ID 			17
#define LSS_CONF_BIT_TIMING 		19
#define LSS_CONF_ACT_BIT_TIMING 	21
#define LSS_CONF_STORE 				23
/* Inquire services */
#define LSS_INQ_VENDOR_ID 		90
#define LSS_INQ_PRODUCT_CODE 	91
#define LSS_INQ_REV_NUMBER 		92
#define LSS_INQ_SERIAL_NUMBER 	93
#define LSS_INQ_NODE_ID 		94
/* Identification services */
#define LSS_IDENT_REMOTE_VENDOR 		70
#define LSS_IDENT_REMOTE_PRODUCT 		71
#define LSS_IDENT_REMOTE_REV_LOW 		72
#define LSS_IDENT_REMOTE_REV_HIGH 		73
#define LSS_IDENT_REMOTE_SERIAL_LOW 	74
#define LSS_IDENT_REMOTE_SERIAL_HIGH 	75
#define LSS_IDENT_REMOTE_NON_CONF 		76
#define LSS_IDENT_SLAVE 				79
#define LSS_IDENT_NON_CONF_SLAVE 		80
#define LSS_IDENT_FASTSCAN				81

/*FastScan State Machine*/
#define LSS_FS_RESET	0
#define LSS_FS_PROCESSING 1
#define LSS_FS_CONFIRMATION 2


typedef void (*LSSCallback_t)(CO_Data* d, UNS8 command); 

typedef void (*lss_StoreConfiguration_t)(CO_Data* d,UNS8*,UNS8*);
//void _lss_StoreConfiguration(UNS8 *error, UNS8 *spec_error);

//typedef void (*lss_ChangeBaudRate_t)(CO_Data* d,char*);
//void _lss_ChangeBaudRate(char *BaudRate);


struct struct_lss_transfer;

//#include "timer.h"

#ifdef CO_ENABLE_LSS_FS
struct struct_lss_fs_transfer {
	UNS32 FS_LSS_ID[4];
	UNS8 FS_BitChecked[4];
};

typedef struct struct_lss_fs_transfer lss_fs_transfer_t;
#endif

/* The Transfer structure
* Used to store the different fields of the internal state of the LSS  
*/

struct struct_lss_transfer {
  UNS8          state;      /* state of the transmission : Takes the values LSS_... */
  UNS8 			command;     /* the LSS command of the transmision */
  UNS8			mode;       /* LSS mode */
  
  UNS32 		dat1;		/* the data from the last msg received */
  UNS8			dat2; 
  
  UNS8 nodeID;              /* the new nodeid stored to update the nodeid when switching to LSS operational*/
  UNS8 addr_sel_match;    	/* the matching mask for the LSS Switch Mode Selective service */
  UNS8 addr_ident_match;    /* the matching mask for the LSS Identify Remote Slaves service*/

  char *baudRate;           /* the new baudrate stored to update the node baudrate when a Activate Bit 
  							 * Timing Parameters is received*/
  UNS16 switchDelay;		/* the period of the two delay */
  UNS8  switchDelayState;   /* the state machine for the switchDelay */
  CAN_PORT canHandle_t;
    
                              /* Time counters to implement a timeout in milliseconds.*/
  TIMER_HANDLE timerMSG;	  /* timerMSG is automatically incremented whenever 
                              * the lss state is in LSS_TRANS_IN_PROGRESS, and reseted to 0 
                              * when the response LSS have been received.
                              */
                             
  TIMER_HANDLE timerSDELAY;	  /* timerSDELAY is automatically incremented whenever 
                              * the lss switchDelayState is in SDELAY_FIRST or SDELAY_SECOND, and reseted to 0 
                              * when the two periods have been expired.
                              */
                              
  LSSCallback_t Callback;   /* The user callback func to be called at LSS transaction end */
  
  UNS8 LSSanswer;			/* stores if a message has been received during a timer period */

#ifdef CO_ENABLE_LSS_FS 
  UNS32 IDNumber;			/* in the master, the LSS address parameter which it currently tries to identify.
  							 * in the slave, the LSS address parameter which is being checked (LSS-ID[sub]). */
  UNS8 BitChecked;			/* bits of the current IDNumber that are currently checked */
  UNS8 LSSSub;				/* which part of the LSS-ID is currently checked in IDNumber */
  UNS8 LSSNext;				/* which LSSSub value will be used in the next request */
  UNS8 LSSPos;				/* in the slave, which part of the LSS-ID is currently processed*/
  UNS8 FastScan_SM;			/* the state machine for the FastScan protocol */
  TIMER_HANDLE timerFS;		/* timerFS is automatically incremented when the FastScan service
  							 * has been requested and reseted to 0 when the protocol ends.
                              */
#ifdef CO_ENABLE_LSS_FS
  lss_fs_transfer_t lss_fs_transfer;
#endif
  
#endif                           
};

#ifdef CO_ENABLE_LSS
typedef struct struct_lss_transfer lss_transfer_t;
#else
typedef UNS8 lss_transfer_t;
#endif
  


void startLSS(CO_Data* d);
void stopLSS(CO_Data* d);


/** transmit a LSS message 
 * command is the LSS command specifier
 * dat1 and dat2 are pointers to optional data (depend on command)
 * return sendLSSMessage(d,command,dat1,dat2)
 */
UNS8 sendLSS (CO_Data* d, UNS8 command,void *dat1, void *dat2);

/** transmit a LSS message on CAN bus
 * comamnd is the LSS command specifier
 * bus_id is MLSS_ADRESS or SLSS_ADRESS depending in d->iam_a_slave. 
 * dat1 and dat2 are pointers to optional data (depend on command).
 * return canSend(bus_id,&m)
 */
 
UNS8 sendLSSMessage(CO_Data* d, UNS8 command,  void *dat1, void *dat2);

/** This function is called when the node is receiving a Master LSS message (cob-id = 0x7E5).
 *  - Check if there is a callback which will take care of the response. If not return 0 but does nothing.
 *  - Stops the timer so the alarm wont raise an error.
 *  - return 0 if OK
 */
UNS8 proceedLSS_Master (CO_Data* d, Message* m );

/** This function is called when the node is receiving a Slave LSS message (cob-id = 0x7E4).
 *  - Call the callback function or send the response message depending on the LSS comand within m.
 *  - return 0 if OK
 */
UNS8 proceedLSS_Slave (CO_Data* d, Message* m );

/** Used by the Master application to send a LSS command, WITHOUT response, to the slave. 
 * command: the LSS command. LSS_...
 * dat1 and dat2: pointers to optional data (depend on command).
 * return sendLSS(d,command,dat1,dat2)
 */
//UNS8 configNetworkNode(CO_Data* d, UNS8 command, void *dat1, void* dat2);

/** 
 * @ingroup lss
 * @brief Used by the Master application to send a LSS command, WITH response, to the slave. 
 * @param *d Pointer on a CAN object data structure
 * @param command
 * @param *dat1
 * @param *dat2
 * @param Callback The function Callback, which must be defined in the user code, is called at the
 * end of the exchange (on succes or abort) and can be NULL.
 * @return sendLSS(d,command,dat1,dat2)
 * The LSS_MSG_TIMER timer is started to control the timeout
 */
UNS8 configNetworkNode (CO_Data* d, UNS8 command, void *dat1, void* dat2, LSSCallback_t Callback);

/**
 * @ingroup lss 
 * @brief Use this function after a configNetworkNode or configNetworkNodeCallBack to get the result.
 * @param *d Pointer on a CAN object data structure
 * @param command The LSS command (unused).
 * @param *dat1
 * @param *dat2
 * @return : 
 *          - LSS_RESET				// Transmission not started. Init state.
 *          - LSS_FINISHED			// data are available                           
 *          - LSS_ABORTED_INTERNAL	// Aborted but not because of an abort message. 
 *          - LSS_TRANS_IN_PROGRESS	// Data not yet available
 * @code
 * example:
 * UNS32 dat1;
 * UNS8 dat2;
 * res=configNetworkNodeCallBack(&_Data,LSS_INQ_NODE_ID,0,0,NULL); // inquire the nodeID
 * while (getConfigResultNetworkNode (&_Data, LSS_INQ_NODE_ID, &dat1, &dat2) != LSS_TRANS_IN_PROGRESS);
 * @endcode
*/
UNS8 getConfigResultNetworkNode (CO_Data* d, UNS8 command, UNS32* dat1, UNS8* dat2);

#endif