/******************************************************************************* Project: Gemini/UKIRT CAN Bus Driver for EPICS File: devBiCan.c Description: CANBUS Binary Input device support Author: Andrew Johnson Created: 14 August 1995 (c) 1995 Royal Greenwich Observatory *******************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define CONVERT 0 #define DO_NOT_CONVERT 2 typedef struct { CALLBACK callback; /* This *must* be first member */ WDOG_ID wdId; IOSCANPVT ioscanpvt; struct biRecord *prec; canIo_t inp; long data; int status; } biCanPrivate_t; LOCAL long init_bi(struct biRecord *prec); LOCAL long get_ioint_info(int cmd, struct biRecord *prec, IOSCANPVT *ppvt); LOCAL long read_bi(struct biRecord *prec); LOCAL void biProcess(biCanPrivate_t *pcanBi); LOCAL void biMessage(biCanPrivate_t *pcanBi, canMessage_t *pmessage); LOCAL void biSignal(biCanPrivate_t *pcanBi, int status); struct { long number; DEVSUPFUN report; DEVSUPFUN init; DEVSUPFUN init_record; DEVSUPFUN get_ioint_info; DEVSUPFUN read_bi; } devBiCan = { 5, NULL, NULL, init_bi, get_ioint_info, read_bi }; LOCAL long init_bi ( struct biRecord *prec ) { biCanPrivate_t *pcanBi; int status; if (prec->inp.type != INST_IO) { recGblRecordError(S_db_badField, (void *) prec, "devBiCan (init_record) Illegal INP field"); return S_db_badField; } pcanBi = (biCanPrivate_t *) malloc(sizeof(biCanPrivate_t)); if (pcanBi == NULL) { return S_dev_noMemory; } prec->dpvt = pcanBi; pcanBi->prec = prec; pcanBi->ioscanpvt = NULL; pcanBi->status = NO_ALARM; /* Convert the address string into members of the canIo structure */ status = canIoParse(prec->inp.value.instio.string, &pcanBi->inp); if (status || pcanBi->inp.parameter < 0 || pcanBi->inp.parameter > 7) { recGblRecordError(S_can_badAddress, (void *) prec, "devBiCan (init_record) bad CAN address"); return S_can_badAddress; } #ifdef DEBUG printf("biCan %s: Init bus=%s, id=%#x, off=%d, parm=%d\n", prec->name, pcanBi->inp.busName, pcanBi->inp.identifier, pcanBi->inp.offset, pcanBi->inp.parameter); #endif /* For bi records, the final parameter specifies the input bit number, with offset specifying the message byte number. */ prec->mask = 1 << pcanBi->inp.parameter; #ifdef DEBUG printf(" bit=%d, mask=%#x\n", pcanBi->inp.parameter, prec->mask); #endif /* Create a callback for asynchronous processing */ callbackSetCallback(biProcess, &pcanBi->callback); callbackSetPriority(prec->prio, &pcanBi->callback); /* and a watchdog for CANbus RTR timeouts */ pcanBi->wdId = wdCreate(); if (pcanBi->wdId == NULL) { return S_dev_noMemory; } /* Register the message and signal handlers with the Canbus driver */ canMessage(pcanBi->inp.canBusID, pcanBi->inp.identifier, (canMsgCallback_t *) biMessage, pcanBi); canSignal(pcanBi->inp.canBusID, (canSigCallback_t *) biSignal, pcanBi); return OK; } LOCAL long get_ioint_info ( int cmd, struct biRecord *prec, IOSCANPVT *ppvt ) { biCanPrivate_t *pcanBi = (biCanPrivate_t *) prec->dpvt; if (pcanBi->ioscanpvt == NULL) { scanIoInit(&pcanBi->ioscanpvt); } #ifdef DEBUG printf("canBi %s: get_ioint_info %d\n", prec->name, cmd); #endif *ppvt = pcanBi->ioscanpvt; return OK; } LOCAL long read_bi ( struct biRecord *prec ) { biCanPrivate_t *pcanBi = (biCanPrivate_t *) prec->dpvt; if (pcanBi->inp.canBusID == NULL) { return DO_NOT_CONVERT; } #ifdef DEBUG printf("canBi %s: read_bi status=%#x\n", prec->name, pcanBi->status); #endif switch (pcanBi->status) { case TIMEOUT_ALARM: case COMM_ALARM: recGblSetSevr(prec, pcanBi->status, MAJOR_ALARM); pcanBi->status = NO_ALARM; return DO_NOT_CONVERT; case READ_ALARM: recGblSetSevr(prec, COMM_ALARM, MINOR_ALARM); pcanBi->status = NO_ALARM; return DO_NOT_CONVERT; case NO_ALARM: if (prec->pact || prec->scan == SCAN_IO_EVENT) { #ifdef DEBUG printf("canBi %s: message id=%#x, data=%#x\n", prec->name, pcanBi->inp.identifier, pcanBi->data); #endif prec->rval = pcanBi->data & prec->mask; return CONVERT; } else { canMessage_t message; message.identifier = pcanBi->inp.identifier; message.rtr = RTR; message.length = 0; #ifdef DEBUG printf("canBi %s: RTR, id=%#x\n", prec->name, pcanBi->inp.identifier); #endif prec->pact = TRUE; pcanBi->status = TIMEOUT_ALARM; callbackSetPriority(prec->prio, &pcanBi->callback); wdStart(pcanBi->wdId, pcanBi->inp.timeout, (FUNCPTR) callbackRequest, (int) pcanBi); canWrite(pcanBi->inp.canBusID, &message, pcanBi->inp.timeout); return 0; } default: recGblSetSevr(prec, UDF_ALARM, INVALID_ALARM); pcanBi->status = NO_ALARM; return DO_NOT_CONVERT; } } LOCAL void biProcess ( biCanPrivate_t *pcanBi ) { dbScanLock((struct dbCommon *) pcanBi->prec); (*((struct rset *) pcanBi->prec->rset)->process)(pcanBi->prec); dbScanUnlock((struct dbCommon *) pcanBi->prec); } LOCAL void biMessage ( biCanPrivate_t *pcanBi, canMessage_t *pmessage ) { if (pmessage->rtr == RTR) { return; /* Ignore RTRs */ } pcanBi->data = pmessage->data[pcanBi->inp.offset]; if (pcanBi->prec->scan == SCAN_IO_EVENT) { pcanBi->status = NO_ALARM; scanIoRequest(pcanBi->ioscanpvt); } else if (pcanBi->status == TIMEOUT_ALARM) { pcanBi->status = NO_ALARM; wdCancel(pcanBi->wdId); callbackRequest(&pcanBi->callback); } } LOCAL void biSignal ( biCanPrivate_t *pcanBi, int status ) { switch(status) { case CAN_BUS_OK: return; case CAN_BUS_ERROR: pcanBi->status = READ_ALARM; break; case CAN_BUS_OFF: pcanBi->status = COMM_ALARM; break; } callbackRequest(&pcanBi->callback); }