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|
/* $OpenBSD: fhpib.c,v 1.6 1997/02/03 04:47:24 downsj Exp $ */
/* $NetBSD: fhpib.c,v 1.14 1997/01/30 09:06:53 thorpej Exp $ */
/*
* Copyright (c) 1996, 1997 Jason R. Thorpe. All rights reserved.
* Copyright (c) 1982, 1990, 1993
* The Regents of the University of California. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* @(#)fhpib.c 8.2 (Berkeley) 1/12/94
*/
/*
* 98625A/B HPIB driver
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/kernel.h>
#include <sys/buf.h>
#include <sys/device.h>
#include <machine/autoconf.h>
#include <hp300/hp300/isr.h>
#include <hp300/dev/dioreg.h>
#include <hp300/dev/diovar.h>
#include <hp300/dev/diodevs.h>
#include <hp300/dev/dmavar.h>
#include <hp300/dev/fhpibreg.h>
#include <hp300/dev/hpibvar.h>
/*
* Inline version of fhpibwait to be used in places where
* we don't worry about getting hung.
*/
#define FHPIBWAIT(hd, m) while (((hd)->hpib_intr & (m)) == 0) DELAY(1)
#ifdef DEBUG
int fhpibdebugunit = -1;
int fhpibdebug = 0;
#define FDB_FAIL 0x01
#define FDB_DMA 0x02
#define FDB_WAIT 0x04
#define FDB_PPOLL 0x08
int dopriodma = 0; /* use high priority DMA */
int doworddma = 1; /* non-zero if we should attempt word dma */
int doppollint = 1; /* use ppoll interrupts instead of watchdog */
int fhpibppolldelay = 50;
#endif
void fhpibifc __P((struct fhpibdevice *));
void fhpibdmadone __P((void *));
int fhpibwait __P((struct fhpibdevice *, int));
void fhpibreset __P((struct hpibbus_softc *));
int fhpibsend __P((struct hpibbus_softc *, int, int, void *, int));
int fhpibrecv __P((struct hpibbus_softc *, int, int, void *, int));
int fhpibppoll __P((struct hpibbus_softc *));
void fhpibppwatch __P((void *));
void fhpibgo __P((struct hpibbus_softc *, int, int, void *, int, int, int));
void fhpibdone __P((struct hpibbus_softc *));
int fhpibintr __P((void *));
/*
* Our controller ops structure.
*/
struct hpib_controller fhpib_controller = {
fhpibreset,
fhpibsend,
fhpibrecv,
fhpibppoll,
fhpibppwatch,
fhpibgo,
fhpibdone,
fhpibintr
};
struct fhpib_softc {
struct device sc_dev; /* generic device glue */
struct fhpibdevice *sc_regs; /* device registers */
int sc_cmd;
struct hpibbus_softc *sc_hpibbus; /* XXX */
};
int fhpibmatch __P((struct device *, void *, void *));
void fhpibattach __P((struct device *, struct device *, void *));
struct cfattach fhpib_ca = {
sizeof(struct fhpib_softc), fhpibmatch, fhpibattach
};
struct cfdriver fhpib_cd = {
NULL, "fhpib", DV_DULL
};
int
fhpibmatch(parent, match, aux)
struct device *parent;
void *match, *aux;
{
struct dio_attach_args *da = aux;
if (da->da_id == DIO_DEVICE_ID_FHPIB)
return (1);
return (0);
}
void
fhpibattach(parent, self, aux)
struct device *parent, *self;
void *aux;
{
struct fhpib_softc *sc = (struct fhpib_softc *)self;
struct dio_attach_args *da = aux;
struct hpibdev_attach_args ha;
int ipl;
sc->sc_regs = (struct fhpibdevice *)iomap(dio_scodetopa(da->da_scode),
da->da_size);
if (sc->sc_regs == NULL) {
printf("\n%s: can't map registers\n", self->dv_xname);
return;
}
ipl = DIO_IPL(sc->sc_regs);
printf(" ipl %d: %s\n", ipl, DIO_DEVICE_DESC_FHPIB);
/* Establish the interrupt handler. */
(void) isrlink(fhpibintr, sc, ipl, ISRPRI_BIO);
dmacomputeipl();
ha.ha_ops = &fhpib_controller;
ha.ha_type = HPIBC; /* XXX */
ha.ha_ba = HPIBC_BA;
ha.ha_softcpp = &sc->sc_hpibbus; /* XXX */
(void)config_found(self, &ha, hpibdevprint);
}
void
fhpibreset(hs)
struct hpibbus_softc *hs;
{
struct fhpib_softc *sc = (struct fhpib_softc *)hs->sc_dev.dv_parent;
struct fhpibdevice *hd = sc->sc_regs;
hd->hpib_cid = 0xFF;
DELAY(100);
hd->hpib_cmd = CT_8BIT;
hd->hpib_ar = AR_ARONC;
fhpibifc(hd);
hd->hpib_ie = IDS_IE;
hd->hpib_data = C_DCL;
DELAY(100000);
/*
* See if we can do word dma.
* If so, we should be able to write and read back the appropos bit.
*/
hd->hpib_ie |= IDS_WDMA;
if (hd->hpib_ie & IDS_WDMA) {
hd->hpib_ie &= ~IDS_WDMA;
hs->sc_flags |= HPIBF_DMA16;
#ifdef DEBUG
if (fhpibdebug & FDB_DMA)
printf("fhpibtype: %s has word dma\n",
sc->sc_dev.dv_xname);
#endif
}
}
void
fhpibifc(hd)
register struct fhpibdevice *hd;
{
hd->hpib_cmd |= CT_IFC;
hd->hpib_cmd |= CT_INITFIFO;
DELAY(100);
hd->hpib_cmd &= ~CT_IFC;
hd->hpib_cmd |= CT_REN;
hd->hpib_stat = ST_ATN;
}
int
fhpibsend(hs, slave, sec, ptr, origcnt)
struct hpibbus_softc *hs;
int slave, sec, origcnt;
void *ptr;
{
struct fhpib_softc *sc = (struct fhpib_softc *)hs->sc_dev.dv_parent;
struct fhpibdevice *hd = sc->sc_regs;
register int cnt = origcnt;
register int timo;
char *addr = ptr;
hd->hpib_stat = 0;
hd->hpib_imask = IM_IDLE | IM_ROOM;
if (fhpibwait(hd, IM_IDLE) < 0)
goto senderr;
hd->hpib_stat = ST_ATN;
hd->hpib_data = C_UNL;
hd->hpib_data = C_TAG + hs->sc_ba;
hd->hpib_data = C_LAG + slave;
if (sec < 0) {
if (sec == -2) /* selected device clear KLUDGE */
hd->hpib_data = C_SDC;
} else
hd->hpib_data = C_SCG + sec;
if (fhpibwait(hd, IM_IDLE) < 0)
goto senderr;
if (cnt) {
hd->hpib_stat = ST_WRITE;
while (--cnt) {
hd->hpib_data = *addr++;
timo = hpibtimeout;
while ((hd->hpib_intr & IM_ROOM) == 0) {
if (--timo <= 0)
goto senderr;
DELAY(1);
}
}
hd->hpib_stat = ST_EOI;
hd->hpib_data = *addr;
FHPIBWAIT(hd, IM_ROOM);
hd->hpib_stat = ST_ATN;
/* XXX: HP-UX claims bug with CS80 transparent messages */
if (sec == 0x12)
DELAY(150);
hd->hpib_data = C_UNL;
(void) fhpibwait(hd, IM_IDLE);
}
hd->hpib_imask = 0;
return (origcnt);
senderr:
hd->hpib_imask = 0;
fhpibifc(hd);
#ifdef DEBUG
if (fhpibdebug & FDB_FAIL) {
printf("%s: fhpibsend failed: slave %d, sec %x, ",
sc->sc_dev.dv_xname, slave, sec);
printf("sent %d of %d bytes\n", origcnt-cnt-1, origcnt);
}
#endif
return (origcnt - cnt - 1);
}
int
fhpibrecv(hs, slave, sec, ptr, origcnt)
struct hpibbus_softc *hs;
int slave, sec, origcnt;
void *ptr;
{
struct fhpib_softc *sc = (struct fhpib_softc *)hs->sc_dev.dv_parent;
struct fhpibdevice *hd = sc->sc_regs;
register int cnt = origcnt;
register int timo;
char *addr = ptr;
/*
* Slave < 0 implies continuation of a previous receive
* that probably timed out.
*/
if (slave >= 0) {
hd->hpib_stat = 0;
hd->hpib_imask = IM_IDLE | IM_ROOM | IM_BYTE;
if (fhpibwait(hd, IM_IDLE) < 0)
goto recverror;
hd->hpib_stat = ST_ATN;
hd->hpib_data = C_UNL;
hd->hpib_data = C_LAG + hs->sc_ba;
hd->hpib_data = C_TAG + slave;
if (sec != -1)
hd->hpib_data = C_SCG + sec;
if (fhpibwait(hd, IM_IDLE) < 0)
goto recverror;
hd->hpib_stat = ST_READ0;
hd->hpib_data = 0;
}
if (cnt) {
while (--cnt >= 0) {
timo = hpibtimeout;
while ((hd->hpib_intr & IM_BYTE) == 0) {
if (--timo == 0)
goto recvbyteserror;
DELAY(1);
}
*addr++ = hd->hpib_data;
}
FHPIBWAIT(hd, IM_ROOM);
hd->hpib_stat = ST_ATN;
hd->hpib_data = (slave == 31) ? C_UNA : C_UNT;
(void) fhpibwait(hd, IM_IDLE);
}
hd->hpib_imask = 0;
return (origcnt);
recverror:
fhpibifc(hd);
recvbyteserror:
hd->hpib_imask = 0;
#ifdef DEBUG
if (fhpibdebug & FDB_FAIL) {
printf("%s: fhpibrecv failed: slave %d, sec %x, ",
sc->sc_dev.dv_xname, slave, sec);
printf("got %d of %d bytes\n", origcnt-cnt-1, origcnt);
}
#endif
return (origcnt - cnt - 1);
}
void
fhpibgo(hs, slave, sec, ptr, count, rw, timo)
struct hpibbus_softc *hs;
int slave, sec, count, rw, timo;
void *ptr;
{
struct fhpib_softc *sc = (struct fhpib_softc *)hs->sc_dev.dv_parent;
register struct fhpibdevice *hd = sc->sc_regs;
register int i;
char *addr = ptr;
int flags = 0;
hs->sc_flags |= HPIBF_IO;
if (timo)
hs->sc_flags |= HPIBF_TIMO;
if (rw == B_READ)
hs->sc_flags |= HPIBF_READ;
#ifdef DEBUG
else if (hs->sc_flags & HPIBF_READ) {
printf("fhpibgo: HPIBF_READ still set\n");
hs->sc_flags &= ~HPIBF_READ;
}
#endif
hs->sc_count = count;
hs->sc_addr = addr;
#ifdef DEBUG
/* fhpibtransfer[unit]++; XXX */
#endif
if ((hs->sc_flags & HPIBF_DMA16) &&
((int)addr & 1) == 0 && count && (count & 1) == 0
#ifdef DEBUG
&& doworddma
#endif
) {
#ifdef DEBUG
/* fhpibworddma[unit]++; XXX */
#endif
flags |= DMAGO_WORD;
hd->hpib_latch = 0;
}
#ifdef DEBUG
if (dopriodma)
flags |= DMAGO_PRI;
#endif
if (hs->sc_flags & HPIBF_READ) {
sc->sc_cmd = CT_REN | CT_8BIT;
hs->sc_curcnt = count;
dmago(hs->sc_dq->dq_chan, addr, count, flags|DMAGO_READ);
if (fhpibrecv(hs, slave, sec, 0, 0) < 0) {
#ifdef DEBUG
printf("fhpibgo: recv failed, retrying...\n");
#endif
(void) fhpibrecv(hs, slave, sec, 0, 0);
}
i = hd->hpib_cmd;
hd->hpib_cmd = sc->sc_cmd;
hd->hpib_ie = IDS_DMA(hs->sc_dq->dq_chan) |
((flags & DMAGO_WORD) ? IDS_WDMA : 0);
return;
}
sc->sc_cmd = CT_REN | CT_8BIT | CT_FIFOSEL;
if (count < hpibdmathresh) {
#ifdef DEBUG
/* fhpibnondma[unit]++; XXX */
if (flags & DMAGO_WORD)
/* fhpibworddma[unit]--; XXX */ ;
#endif
hs->sc_curcnt = count;
(void) fhpibsend(hs, slave, sec, addr, count);
fhpibdone(hs);
return;
}
count -= (flags & DMAGO_WORD) ? 2 : 1;
hs->sc_curcnt = count;
dmago(hs->sc_dq->dq_chan, addr, count, flags);
if (fhpibsend(hs, slave, sec, 0, 0) < 0) {
#ifdef DEBUG
printf("fhpibgo: send failed, retrying...\n");
#endif
(void) fhpibsend(hs, slave, sec, 0, 0);
}
i = hd->hpib_cmd;
hd->hpib_cmd = sc->sc_cmd;
hd->hpib_ie = IDS_DMA(hs->sc_dq->dq_chan) | IDS_WRITE |
((flags & DMAGO_WORD) ? IDS_WDMA : 0);
}
/*
* A DMA read can finish but the device can still be waiting (MAG-tape
* with more data than we're waiting for). This timeout routine
* takes care of that. Somehow, the thing gets hosed. For now, since
* this should be a very rare occurence, we RESET it.
*/
void
fhpibdmadone(arg)
void *arg;
{
register struct hpibbus_softc *hs = arg;
struct fhpib_softc *sc = (struct fhpib_softc *)hs->sc_dev.dv_parent;
int s = splbio();
if (hs->sc_flags & HPIBF_IO) {
register struct fhpibdevice *hd = sc->sc_regs;
register struct hpibqueue *hq;
hd->hpib_imask = 0;
hd->hpib_cid = 0xFF;
DELAY(100);
hd->hpib_cmd = CT_8BIT;
hd->hpib_ar = AR_ARONC;
fhpibifc(hd);
hd->hpib_ie = IDS_IE;
hs->sc_flags &= ~(HPIBF_DONE|HPIBF_IO|HPIBF_READ|HPIBF_TIMO);
dmafree(hs->sc_dq);
hq = hs->sc_queue.tqh_first;
(hq->hq_intr)(hq->hq_softc);
}
splx(s);
}
void
fhpibdone(hs)
struct hpibbus_softc *hs;
{
struct fhpib_softc *sc = (struct fhpib_softc *)hs->sc_dev.dv_parent;
register struct fhpibdevice *hd = sc->sc_regs;
register char *addr;
register int cnt;
cnt = hs->sc_curcnt;
hs->sc_addr += cnt;
hs->sc_count -= cnt;
#ifdef DEBUG
if ((fhpibdebug & FDB_DMA) && fhpibdebugunit == unit)
printf("fhpibdone: addr %x cnt %d\n",
hs->sc_addr, hs->sc_count);
#endif
if (hs->sc_flags & HPIBF_READ) {
hd->hpib_imask = IM_IDLE | IM_BYTE;
if (hs->sc_flags & HPIBF_TIMO)
timeout(fhpibdmadone, hs, hz >> 2);
} else {
cnt = hs->sc_count;
if (cnt) {
addr = hs->sc_addr;
hd->hpib_imask = IM_IDLE | IM_ROOM;
FHPIBWAIT(hd, IM_IDLE);
hd->hpib_stat = ST_WRITE;
while (--cnt) {
hd->hpib_data = *addr++;
FHPIBWAIT(hd, IM_ROOM);
}
hd->hpib_stat = ST_EOI;
hd->hpib_data = *addr;
}
hd->hpib_imask = IM_IDLE;
}
hs->sc_flags |= HPIBF_DONE;
hd->hpib_stat = ST_IENAB;
hd->hpib_ie = IDS_IE;
}
int
fhpibintr(arg)
void *arg;
{
struct fhpib_softc *sc = arg;
register struct hpibbus_softc *hs = sc->sc_hpibbus;
register struct fhpibdevice *hd = sc->sc_regs;
register struct hpibqueue *hq;
register int stat0, unit = sc->sc_dev.dv_unit;
stat0 = hd->hpib_ids;
if ((stat0 & (IDS_IE|IDS_IR)) != (IDS_IE|IDS_IR)) {
#ifdef DEBUG
if ((fhpibdebug & FDB_FAIL) && (stat0 & IDS_IR) &&
(hs->sc_flags & (HPIBF_IO|HPIBF_DONE)) != HPIBF_IO)
printf("%s: fhpibintr: bad status %x\n",
sc->sc_dev.dv_xname, stat0);
/* fhpibbadint[0]++; XXX */
#endif
return(0);
}
if ((hs->sc_flags & (HPIBF_IO|HPIBF_DONE)) == HPIBF_IO) {
#ifdef DEBUG
/* fhpibbadint[1]++; XXX */
#endif
return(0);
}
#ifdef DEBUG
if ((fhpibdebug & FDB_DMA) && fhpibdebugunit == unit)
printf("fhpibintr: flags %x\n", hs->sc_flags);
#endif
hq = hs->sc_queue.tqh_first;
if (hs->sc_flags & HPIBF_IO) {
if (hs->sc_flags & HPIBF_TIMO)
untimeout(fhpibdmadone, hs);
stat0 = hd->hpib_cmd;
hd->hpib_cmd = sc->sc_cmd & ~CT_8BIT;
hd->hpib_stat = 0;
hd->hpib_cmd = CT_REN | CT_8BIT;
stat0 = hd->hpib_intr;
hd->hpib_imask = 0;
hs->sc_flags &= ~(HPIBF_DONE|HPIBF_IO|HPIBF_READ|HPIBF_TIMO);
dmafree(hs->sc_dq);
(hq->hq_intr)(hq->hq_softc);
} else if (hs->sc_flags & HPIBF_PPOLL) {
stat0 = hd->hpib_intr;
#ifdef DEBUG
if ((fhpibdebug & FDB_FAIL) &&
doppollint && (stat0 & IM_PPRESP) == 0)
printf("%s: fhpibintr: bad intr reg %x\n",
sc->sc_dev.dv_xname, stat0);
#endif
hd->hpib_stat = 0;
hd->hpib_imask = 0;
#ifdef DEBUG
stat0 = fhpibppoll(hs);
if ((fhpibdebug & FDB_PPOLL) && unit == fhpibdebugunit)
printf("fhpibintr: got PPOLL status %x\n", stat0);
if ((stat0 & (0x80 >> hq->hq_slave)) == 0) {
/*
* XXX give it another shot (68040)
*/
/* fhpibppollfail[unit]++; XXX */
DELAY(fhpibppolldelay);
stat0 = fhpibppoll(hs);
if ((stat0 & (0x80 >> hq->hq_slave)) == 0 &&
(fhpibdebug & FDB_PPOLL) && unit == fhpibdebugunit)
printf("fhpibintr: PPOLL: unit %d slave %d stat %x\n",
unit, dq->dq_slave, stat0);
}
#endif
hs->sc_flags &= ~HPIBF_PPOLL;
(hq->hq_intr)(hq->hq_softc);
}
return(1);
}
int
fhpibppoll(hs)
struct hpibbus_softc *hs;
{
struct fhpib_softc *sc = (struct fhpib_softc *)hs->sc_dev.dv_parent;
register struct fhpibdevice *hd = sc->sc_regs;
register int ppoll;
hd->hpib_stat = 0;
hd->hpib_psense = 0;
hd->hpib_pmask = 0xFF;
hd->hpib_imask = IM_PPRESP | IM_PABORT;
DELAY(25);
hd->hpib_intr = IM_PABORT;
ppoll = hd->hpib_data;
if (hd->hpib_intr & IM_PABORT)
ppoll = 0;
hd->hpib_imask = 0;
hd->hpib_pmask = 0;
hd->hpib_stat = ST_IENAB;
return(ppoll);
}
int
fhpibwait(hd, x)
register struct fhpibdevice *hd;
int x;
{
register int timo = hpibtimeout;
while ((hd->hpib_intr & x) == 0 && --timo)
DELAY(1);
if (timo == 0) {
#ifdef DEBUG
if (fhpibdebug & FDB_FAIL)
printf("fhpibwait(%x, %x) timeout\n", hd, x);
#endif
return(-1);
}
return(0);
}
/*
* XXX: this will have to change if we ever allow more than one
* pending operation per HP-IB.
*/
void
fhpibppwatch(arg)
void *arg;
{
register struct hpibbus_softc *hs = arg;
struct fhpib_softc *sc = (struct fhpib_softc *)hs->sc_dev.dv_parent;
register struct fhpibdevice *hd = sc->sc_regs;
register int slave;
if ((hs->sc_flags & HPIBF_PPOLL) == 0)
return;
slave = (0x80 >> hs->sc_queue.tqh_first->hq_slave);
#ifdef DEBUG
if (!doppollint) {
if (fhpibppoll(hs) & slave) {
hd->hpib_stat = ST_IENAB;
hd->hpib_imask = IM_IDLE | IM_ROOM;
} else
timeout(fhpibppwatch, sc, 1);
return;
}
if ((fhpibdebug & FDB_PPOLL) && sc->sc_dev.dv_unit == fhpibdebugunit)
printf("fhpibppwatch: sense request on %s\n",
sc->sc_dev.dv_xname);
#endif
hd->hpib_psense = ~slave;
hd->hpib_pmask = slave;
hd->hpib_stat = ST_IENAB;
hd->hpib_imask = IM_PPRESP | IM_PABORT;
hd->hpib_ie = IDS_IE;
}
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