source: trunk/Cosy/incl/bcan.h@ 14582

/*-----------------------------------------------------------------------------
bcan.h -- Interface to Basic CAN Controller Chip PCA82C200

Copyright (c) 1994 JANZ Computer AG
All Rights Reserved

Created 94/10/11 by Soenke Hansen
Version 1.18 of 00/03/30

Prototypes for functions in bcan.c.
Macros for descriptor word, CAN identifiers, RTR bits, and data length codes.
Defintions of register addresses and values for the Basic CAN controller.

-----------------------------------------------------------------------------*/

#ifndef bcan_DEFINED
#define bcan_DEFINED

#ifdef __cplusplus
extern "C" {
#endif

#include "defs.h"
#include "msg.h"

/*-------- COBs CAN Communication Objects ----------------------------------*/

/* COBs (CAN Communication Objects) consists of the following data:
        WORD_t  desc;
        BYTE_t  data[8];
   The format of the descriptor word follows that of the PCA82C200 controller:
        desc >> 5       is the 11-bit identifier
        desc & 0x0010   is set iff the RTR bit is set
        desc & 0x000f   is the data length code DLC
   There are at most 8 data bytes in data[] (DLC <= 8).
*/

/* RTR bit in COB descriptor */
#define COBD_RTR        0x0010

/* Get RTR bit from COB descriptor */
#define cobd_get_rtr(desc) ((desc) & COBD_RTR)

/* Get data length code from COB descriptor */
#define cobd_get_dlc(desc) ((desc) & 0x000f)

/* Get real data length */
#define cobd_get_len(desc) (((desc) & COBD_RTR) ? 0 : \
                                (((desc) & 0x08) ? 8 : (desc) & 0x07))

/* Get id and RTR bit from COB descriptor */
#define cobd_get_id_rtr(desc) ((desc) & 0xfff0)

/* Get RTR bit and data length code from COB descriptor */
#define cobd_get_rtr_dlc(desc) ((desc) & 0x001f)

/* Get identifier from COB descriptor */
#define cobd_get_id(desc) ((desc) >> 5) /* numerical value of id */

/* Shift identifier for oring into COB descriptor */
#define cobd_id_to_desc(id) ((id) << 5)

/* Set COB descriptor from Id, and data length code, with or without RTR */
#define cobd_set(id, dlc)    (((id) << 5) | (0x000f & (WORD_t)(dlc)))
#define cobd_setrtr(id, dlc) (((id) << 5) | COBD_RTR | (0x000f & (WORD_t)(dlc)))


/*-------- Definitions of registers ----------------------------------------*/

/*
 * 82C200 and SJA1000 in BasicCAN Mode
 */

/* PCA82C200 Address Allocation */
#define BCAN_CR          0      /* control register */
#define BCAN_CMR         1      /* command register */
#define BCAN_SR          2      /* status register */
#define BCAN_IR          3      /* interrupt register */
#define BCAN_AC          4      /* acceptance code register */
#define BCAN_AM          5      /* acceptance mask register */
#define BCAN_BT0         6      /* bus timing register 0 */
#define BCAN_BT1         7      /* bus timing register 1 */
#define BCAN_OCR         8      /* output control register */
#define BCAN_TDESC1     10      /* first descriptor transmit buffer */
#define BCAN_TDESC2     11      /* second descriptor transmit buffer */
#define BCAN_TDATA      12      /* start data transmit buffer */
#define BCAN_RDESC1     20      /* first descriptor receive buffer */
#define BCAN_RDESC2     21      /* second descriptor receive buffer */
#define BCAN_RDATA      22      /* start data receive buffer */
#define BCAN_CDR        31      /* clock divider */


/* Control Register Bits */
#define BCAN_CR_OIE     0x10    /* Overrun Interrupt Enable */
#define BCAN_CR_EIE     0x08    /* Error Interrupt Enable */
#define BCAN_CR_TIE     0x04    /* Transmit Interrupt Enable */
#define BCAN_CR_RIE     0x02    /* Receive Interrupt Enable */
#define BCAN_CR_RR      0x01    /* Reset Request */

/* Command Register Bits */
#define BCAN_CMR_GTS    0x10    /* Goto Sleep */
#define BCAN_CMR_COS    0x08    /* Clear Overrun Status */
#define BCAN_CMR_RRB    0x04    /* Release Receive Buffer */
#define BCAN_CMR_AT     0x02    /* Abort Transmission */
#define BCAN_CMR_TR     0x01    /* Transmission Request */

/* Status Register Bits */
#define BCAN_SR_BS      0x80    /* Bus Status */
#define BCAN_SR_ES      0x40    /* Error Status */
#define BCAN_SR_TS      0x20    /* Transmit Status */
#define BCAN_SR_RS      0x10    /* Receive Status */
#define BCAN_SR_TCS     0x08    /* Transmission Complete Status */
#define BCAN_SR_TBS     0x04    /* Transmit Buffer Status */
#define BCAN_SR_DO      0x02    /* Data Overrun */
#define BCAN_SR_RBS     0x01    /* Receive Buffer Status */

/* Interrupt Register Bits */
#define BCAN_IR_WUI     0x10    /* Wake-Up Interrupt */
#define BCAN_IR_OI      0x08    /* Overrun Interrupt */
#define BCAN_IR_EI      0x04    /* Error Interrupt */
#define BCAN_IR_TI      0x02    /* Transmit Interrupt */
#define BCAN_IR_RI      0x01    /* Receive Interrupt */


/*
 * JSA1000 in PeliCAN mode
 */

/* PeliCAN mode address allocation */
#define PCAN_MODR        0      /* Mode register (rw) */
#define PCAN_CMR         1      /* Command register (wo) */
#define PCAN_SR          2      /* Status register (ro) */
#define PCAN_IR          3      /* Interrupt register (ro) */
#define PCAN_IER         4      /* Interrupt enable register (rw) */
#define PCAN_BTR0        6      /* Bus timing register 0 (ro, rw) */
#define PCAN_BTR1        7      /* Bus timing register 1 (ro, rw) */
#define PCAN_OCR         8      /* Output control register 1 (ro, rw) */
#define PCAN_TESTR       9      /* Test register */
#define PCAN_ALCR       11      /* Arbitration lost capture reg (ro) */
#define PCAN_ECCR       12      /* Error code capture register (ro) */
#define PCAN_EWLR       13      /* Error warning limit register (ro, rw) */
#define PCAN_RXERR      14      /* Rx error counter register (ro, rw) */
#define PCAN_TXERR      15      /* Tx error counter register (ro, rw) */
#define PCAN_ACR0       16      /* acceptance code register 0 (-, rw) */
#define PCAN_ACR1       17      /* acceptance code register 1 (-, rw) */
#define PCAN_ACR2       18      /* acceptance code register 2 (-, rw) */
#define PCAN_ACR3       19      /* acceptance code register 3 (-, rw) */
#define PCAN_AMR0       20      /* acceptance mask register 0 (-, rw) */
#define PCAN_AMR1       21      /* acceptance mask register 1 (-, rw) */
#define PCAN_AMR2       22      /* acceptance mask register 2 (-, rw) */
#define PCAN_AMR3       23      /* acceptance mask register 3 (-, rw) */
#define PCAN_RXFI       16      /* Rx Frame info   SFF, EFF (ro, -) */
#define PCAN_RXID1      17      /* Rx Identifier 1 SFF, EFF (ro, -) */
#define PCAN_RXID2      18      /* Rx Identifier 2 SFF, EFF (ro, -) */
#define PCAN_RXID3      19      /* Rx Identifier 3      EFF (ro, -) */
#define PCAN_RXID4      20      /* Rx Identifier 4      EFF (ro, -) */
#define PCAN_RXSFFD     19      /* Rx standard frame data   (ro, -) */
#define PCAN_RXEFFD     21      /* Rx extended frame data   (ro, -) */
#define PCAN_TXFI       16      /* Tx Frame info   SFF, EFF (wo, -) */
#define PCAN_TXID1      17      /* Tx Identifier 1 SFF, EFF (wo, -) */
#define PCAN_TXID2      18      /* Tx Identifier 2 SFF, EFF (wo, -) */
#define PCAN_TXID3      19      /* Tx Identifier 3      EFF (wo, -) */
#define PCAN_TXID4      20      /* Tx Identifier 4      EFF (wo, -) */
#define PCAN_TXSFFD     19      /* Tx standard frame data   (wo, -) */
#define PCAN_TXEFFD     21      /* Tx extended frame data   (wo, -) */
#define PCAN_RXMCR      29      /* Rx message counter register (ro) */
#define PCAN_RXBSAR     30      /* Rx buffer start address register (ro, rw) */
#define PCAN_CDR        31      /* Clock divider register ('rw', rw)*/

#define PCAN_RXFI_RAM   96      /* RAM mirror of RXFI */
#define PCAN_TXFI_RAM   96      /* RAM mirror of TXFI */
#define PCAN_TXID1_RAM  97      /* RAM mirror Tx Identifier 1 SFF, EFF  */
#define PCAN_TXID2_RAM  98      /* RAM mirror Tx Identifier 2 SFF, EFF  */
#define PCAN_TXID3_RAM  99      /* RAM mirror Tx Identifier 3      EFF  */
#define PCAN_TXID4_RAM  100     /* RAM mirror Tx Identifier 4      EFF  */
#define PCAN_TXSFFD_RAM 99      /* RAM mirror Tx standard frame data    */
#define PCAN_TXEFFD_RAM 101     /* RAM mirror Tx extended frame data    */


/* Mode Register Bits */
#define PCAN_MODR_SM    (1<<4)  /* Sleep mode */
#define PCAN_MODR_AFM   (1<<3)  /* Acceptance filter mode */
#define PCAN_MODR_STM   (1<<2)  /* Self test mode */
#define PCAN_MODR_LOM   (1<<1)  /* Listen only mode */
#define PCAN_MODR_RM    (1<<0)  /* Reset mode */

/* Command Register Bits */
#define PCAN_CMR_SRR    (1<<4)  /* Self reception request */
#define PCAN_CMR_CDO    (1<<3)  /* Clear data overrun */
#define PCAN_CMR_RRB    (1<<2)  /* Release receive buffer */
#define PCAN_CMR_AT     (1<<1)  /* Abort transmission */
#define PCAN_CMR_TR     (1<<0)  /* Transmission request */

/* Status Register Bits */
#define PCAN_SR_BS      (1<<7)  /* Bus status */
#define PCAN_SR_ES      (1<<6)  /* Error status */
#define PCAN_SR_TS      (1<<5)  /* Transmit status */
#define PCAN_SR_RS      (1<<4)  /* Receive status */
#define PCAN_SR_TCS     (1<<3)  /* Transmission complete status */
#define PCAN_SR_TBS     (1<<2)  /* Transmit buffer status */
#define PCAN_SR_DOS     (1<<1)  /* Data overrun status */
#define PCAN_SR_RBS     (1<<0)  /* Receive buffer status */

/* Interrupt Register Bits */
#define PCAN_IR_BEI     (1<<7)  /* Bus-eror interrupt */
#define PCAN_IR_ALI     (1<<6)  /* Arbitration lost interrupt */
#define PCAN_IR_EPI     (1<<5)  /* Error-passive interrupt */
#define PCAN_IR_WUI     (1<<4)  /* Wake-up interrupt */
#define PCAN_IR_DOI     (1<<3)  /* Data-overrun interrupt */
#define PCAN_IR_EI      (1<<2)  /* Error interrupt */
#define PCAN_IR_TI      (1<<1)  /* Transmit interrupt */
#define PCAN_IR_RI      (1<<0)  /* Receive interrupt */

/* Interrupt enable register bits */
#define PCAN_IER_BEIE   (1<<7)  /* Bus-eror interrupt enable */
#define PCAN_IER_ALIE   (1<<6)  /* Arbitration lost interrupt enable */
#define PCAN_IER_EPIE   (1<<5)  /* Error-passive interrupt enable */
#define PCAN_IER_WUIE   (1<<4)  /* Wake-up interrupt enable */
#define PCAN_IER_DOIE   (1<<3)  /* Data-overrun interrupt enable */
#define PCAN_IER_EIE    (1<<2)  /* Error warning interrupt enable */
#define PCAN_IER_TIE    (1<<1)  /* Transmit interrupt enable */
#define PCAN_IER_RIE    (1<<0)  /* Receive interrupt enable */

/* Clock divider register bits */
#define PCAN_CDR_PCAN   (1<<7)  /* Enable PCAN mode */
#define PCAN_CDR_CBP    (1<<6)  /* Enable Rx input comparator bypass */
#define PCAN_CDR_RXINTEN (1<<5) /* Enable RXINT output at TX1 */
#define PCAN_CDR_CLKOFF (1<<3)  /* Disable clock output */

/* Bit definitions for Rx/Tx Frame info */
#define PCAN_FINFO_FF   (1<<7)  /* Frame format bit */
#define PCAN_FINFO_EFF  (1<<7)  /* Extended frame indication */
#define PCAN_FINFO_RTR  (1<<6)  /* RTR frame bit */
#define PCAN_FINFO_DLC_MASK (0x0f) /* Data length code mask */



/*
 * BasicCAN, PeliCAN common definitions.
 */

/* Values of acceptance code/mask registers */
#define ACM_ALL word_from_bytes(0x00,0xff)      /* accept all ids */

/* Values of output control register */
#define OCR_PUSHPULL    0xfa    /* push/pull */

/* Admissable bus timing values (BTR1=msb, BTR0=lsb) */
#ifdef OSC_16MHZ                /* if using a 16 MHz oscillator */
#define BTR_1MB         0x2300  /* 1 MBaud */
#if 0
#define BTR_1MB         0x1400  /* 1 MBaud */    /* The better value */
#endif
#define BTR_800KB       0x2500  /* 800 KBaud */
#define BTR_500KB       0x1c00  /* 500 KBaud */
#define BTR_250KB       0x1c01  /* 250 KBaud */
#define BTR_125KB       0x1c03  /* 125 KBaud */
#define BTR_100KB       0x34c7  /* 100 KBaud */
#define BTR_62_5KB      0xbac7  /*  62.5 KBaud */
#define BTR_50KB        0x34cf  /*  50 KBaud */
#define BTR_20KB        0x7fcf  /*  20 KBaud */
#define BTR_10KB        0x7fdf  /*  10 KBaud */
#endif

/* Admissable values in clock divider register */
#ifdef OSC_16MHZ                /* if using a 16 MHz oscillator */
#define CDR_16MHZ       0x07    /* 16 MHz output */
#define CDR_8MHZ        0x00    /* 8 MHz output (division by 2) */
#define CDR_4MHZ        0x01    /* 4 MHz output (division by 4) */
#define CDR_2MHZ        0x03    /* 2 MHz output (division by 8) */
#endif

/*-------- Gloal variables in bcan.c ---------------------------------------*/

/* Indicates that we are using SJA1000 in pelican mode */
extern short pcan_mode;

/* ----------------------- BulkBuffer-Stuff --------------------------*/
/* must be greater than length of biggest message type!!! */
#define BULK_LEFT_FREE                  14      

#define DEFAULT_MAX_BULK_BUF_BYTE_COUNT MSGLEN
/* we need a minimum size of bulk buffer to generate messages */
/* of a certain format (not bounde, but allocated buffer!) */
/* to satisfy the message-handling inside the asm isr */
#define DEFAULT_MIN_BULK_BUF_BYTE_COUNT 20
#define DEFAULT_BULK_PREALLOC_COUNT     20

/* Timer value for elapsed (e.g.) ms to determine */
/* if it is time to send current BulkBuffer. Will */
/* be maintained in timer.c */
extern LWORD_t bulkBufTim;

void configBulkBuffer(unsigned short, unsigned char, unsigned char);

/* ----------------------- SniffBuffer-Stuff --------------------------*/
/* must be greater than length of biggest message type!!! */
#define SNIFF_LEFT_FREE                 26      

#define DEFAULT_MAX_SNIFF_BUF_BYTE_COUNT        MSGLEN
/* we need a minimum size of sniff buffer to generate messages */
/* of a certain format (not bounde, but allocated buffer!) */
/* to satisfy the message-handling inside the asm isr */
#define DEFAULT_MIN_SNIFF_BUF_BYTE_COUNT        20
#define DEFAULT_SNIFF_PREALLOC_COUNT    20

/* Timer value for elapsed (e.g.) ms to determine */
/* if it is time to send current SniffBuffer. Will */
/* be maintained in timer.c */
extern LWORD_t sniffBufTim;

void configSniffBuffer(unsigned short, unsigned char, unsigned char);
void configSniffBufferEcho(unsigned short);
/* valid values for echo2sniff, configured by configSniffBufferEcho: */
#define SNIFF_ECHO_FROM_CANLOOK         (1 << 0)
#define SNIFF_ECHO_FROM_PLAINQ          (1 << 1)
#define SNIFF_ECHO_FROM_FASTQ           (1 << 2)
#define SNIFF_RX_FROM_CAN                       (1 << 3)


/* message-commands inside sniff-message */
#define SNIFF_MS_ECHO_FROM_PLAIN_STD    3
#define SNIFF_MS_ECHO_FROM_PLAIN_XTD    4       /* not yet used */
#define SNIFF_MS_ECHO_FROM_FAST_STD             5
#define SNIFF_MS_ECHO_FROM_FAST_XTD             6
#define SNIFF_MS_ECHO_FROM_CANLOOK_STD  7
#define SNIFF_MS_ECHO_FROM_CANLOOK_XTD  8
#define SNIFF_MS_CAN_RX_STD                             9
#define SNIFF_MS_CAN_RX_XTD                             10
#define SNIFF_MS_MSG_LOST                               0x80
#define SNIFF_MS_UNKNOWN                                0xff


/* -----------------------Busload-Statistic-Stuff --------------------------*/
#define BUS_LOAD_STAT_SEND_TO_HOST              (1 << 0)
#define BUS_LOAD_STAT_INTEGR_TIME_ELAPSED       (1 << 1)
#define BUS_LOAD_STAT_ENABLED   (1 << 7)

#define BUS_LOAD_REQUEST_ALL    0
#define BUS_LOAD_REQUEST_STD    1
#define BUS_LOAD_REQUEST_XTD    2
#define BUS_LOAD_REQUEST_RX             3
#define BUS_LOAD_REQUEST_TX             4

void resetBusLoad(void);
void configBusLoad(WORD_t, BYTE_t);
void sendBusLoadToHost(void);
void busLoadUpdate(void); 
void checkBusLoadStatistic(void); 

void resetBusLoadSniff(void);
void configBusLoadSniff(WORD_t, BYTE_t);
void sendBusLoadToHostSniff(void);
void busLoadUpdateSniff(void); 
void checkBusLoadStatisticSniff(void); 

/*-------- Functions in bcan.c ---------------------------------------------*/

/* Switch to bus-on state */
extern void buson_bcan(void);

/* Reset: Switch to bus-off state */
extern void busoff_bcan(void);

/* Set bus timing registers (assumed state: bus-off) */
extern void write_btr_bcan(WORD_t);

/* Set error waring limit */
void write_ewl_bcan( BYTE_t ewl);

/* Control bus-error reporting */
void switch_berr_bcan( BYTE_t state);

/* provide access to berrs_to_go outside bcan.c */
BYTE_t getBerrsToGo(void);
 
/* Control listen only mode */
void switch_lom_bcan( BYTE_t state);

/* Control self test mode */
void switch_stm_bcan( BYTE_t state);

/* Set hardware acceptance filter */
extern void write_acm_bcan(WORD_t);

/* Set extended hardware acceptance filter */
void write_ext_acm_bcan(int mode, LWORD_t ac, LWORD_t am);

/* Abort current transmission */
extern void sendabort_bcan(void);

/* Flush the transmit queue. */
extern void flush_tx_bcan(void);

/* Initialize the BCAN controller.  The controller is left in the bus-off
   state.  To start communication buson_bcan() must be called.
   All interrupt sources are accepted.  All messages pass the acceptance
   filter.  The bus timing and the clock divider registers are initialized
   with the parameters to the function.  */
extern void init_bcan(WORD_t, WORD_t, WORD_t, WORD_t);

/* Service of BCAN message pool -- to be called cyclically */
extern void serv_bcan(void);

/* Interrupt service for PCA82C200. */
extern void isr_bcan(void);
#ifdef ASSHACK
extern void a_isr_bcan(void);
extern void a_isr_bcan_end(void);
#endif


/* Request to send a CAN message: Fill the transmit buffer of the
   CAN chip and issue a transmit request.
   Return values:        1  okay, transmit request accepted by controller
                         0  remote request successful
                        -1  transmit request failed (no buffer, no mem)
*/
extern int sendreq_bcan(
        int,            /* transmit request specifier */
        WORD_t,         /* request id */
        WORD_t,         /* descriptor (id, rtr, dlc) */
        BYTE_t  *       /* data bytes */
);

#ifdef __cplusplus
}
#endif

#endif /* !bcan_DEFINED */