/* $NetBSD: nhpib.c,v 1.13 1996/10/13 03:14:19 christos Exp $ */ /* * 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. * * @(#)nhpib.c 8.2 (Berkeley) 1/12/94 */ /* * Internal/98624 HPIB driver */ #include "hpib.h" #if NHPIB > 0 #include #include #include #include #include #include #include #include /* * ODD parity table for listen and talk addresses and secondary commands. * The TI9914A doesn't produce the parity bit. */ static u_char listnr_par[] = { 0040,0241,0242,0043,0244,0045,0046,0247, 0250,0051,0052,0253,0054,0255,0256,0057, 0260,0061,0062,0263,0064,0265,0266,0067, 0070,0271,0272,0073,0274,0075,0076,0277, }; static u_char talker_par[] = { 0100,0301,0302,0103,0304,0105,0106,0307, 0310,0111,0112,0313,0114,0315,0316,0117, 0320,0121,0122,0323,0124,0325,0326,0127, 0130,0331,0332,0133,0334,0135,0136,0337, }; static u_char sec_par[] = { 0340,0141,0142,0343,0144,0345,0346,0147, 0150,0351,0352,0153,0354,0155,0156,0357, 0160,0361,0362,0163,0364,0165,0166,0367, 0370,0171,0172,0373,0174,0375,0376,0177 }; void nhpibreset __P((int)); int nhpibsend __P((int, int, int, void *, int)); int nhpibrecv __P((int, int, int, void *, int)); int nhpibppoll __P((int)); void nhpibppwatch __P((void *)); void nhpibgo __P((int, int, int, void *, int, int, int)); void nhpibdone __P((int)); int nhpibintr __P((void *)); /* * Our controller ops structure. */ struct hpib_controller nhpib_controller = { nhpibreset, nhpibsend, nhpibrecv, nhpibppoll, nhpibppwatch, nhpibgo, nhpibdone, nhpibintr }; int nhpibtype(hc) register struct hp_ctlr *hc; { register struct hpib_softc *hs = &hpib_softc[hc->hp_unit]; register struct nhpibdevice *hd = (struct nhpibdevice *)hc->hp_addr; if (hc->hp_addr == internalhpib) { hs->sc_type = HPIBA; hc->hp_ipl = HPIBA_IPL; return (1); } else if (hd->hpib_cid == HPIBB) { hs->sc_type = HPIBB; hc->hp_ipl = HPIB_IPL(hd->hpib_ids); return (1); } return(0); } void nhpibattach(hc) register struct hp_ctlr *hc; { struct hpib_softc *hs = &hpib_softc[hc->hp_unit]; register struct nhpibdevice *hd = (struct nhpibdevice *)hc->hp_addr; switch (hs->sc_type) { case HPIBA: hs->sc_ba = HPIBA_BA; hs->sc_descrip = "Internal HP-IB"; break; case HPIBB: hs->sc_ba = hd->hpib_csa & CSA_BA; hs->sc_descrip = "98624 HP-IB"; break; default: panic("nhpibattach: unknown type 0x%x", hs->sc_type); /* NOTREACHED */ } hs->sc_controller = &nhpib_controller; } void nhpibreset(unit) int unit; { register struct hpib_softc *hs = &hpib_softc[unit]; register struct nhpibdevice *hd; hd = (struct nhpibdevice *)hs->sc_hc->hp_addr; hd->hpib_acr = AUX_SSWRST; hd->hpib_ar = hs->sc_ba; hd->hpib_lim = LIS_ERR; hd->hpib_mim = 0; hd->hpib_acr = AUX_CDAI; hd->hpib_acr = AUX_CSHDW; hd->hpib_acr = AUX_SSTD1; hd->hpib_acr = AUX_SVSTD1; hd->hpib_acr = AUX_CPP; hd->hpib_acr = AUX_CHDFA; hd->hpib_acr = AUX_CHDFE; hd->hpib_acr = AUX_RHDF; hd->hpib_acr = AUX_CSWRST; nhpibifc(hd); hd->hpib_ie = IDS_IE; hd->hpib_data = C_DCL_P; DELAY(100000); } nhpibifc(hd) register struct nhpibdevice *hd; { hd->hpib_acr = AUX_TCA; hd->hpib_acr = AUX_CSRE; hd->hpib_acr = AUX_SSIC; DELAY(100); hd->hpib_acr = AUX_CSIC; hd->hpib_acr = AUX_SSRE; } int nhpibsend(unit, slave, sec, ptr, origcnt) int unit, slave, sec, origcnt; void *ptr; { register struct hpib_softc *hs = &hpib_softc[unit]; register struct nhpibdevice *hd; register int cnt = origcnt; char *addr = ptr; hd = (struct nhpibdevice *)hs->sc_hc->hp_addr; hd->hpib_acr = AUX_TCA; hd->hpib_data = C_UNL_P; if (nhpibwait(hd, MIS_BO)) goto senderror; hd->hpib_data = talker_par[hs->sc_ba]; hd->hpib_acr = AUX_STON; if (nhpibwait(hd, MIS_BO)) goto senderror; hd->hpib_data = listnr_par[slave]; if (nhpibwait(hd, MIS_BO)) goto senderror; if (sec >= 0 || sec == -2) { if (sec == -2) /* selected device clear KLUDGE */ hd->hpib_data = C_SDC_P; else hd->hpib_data = sec_par[sec]; if (nhpibwait(hd, MIS_BO)) goto senderror; } hd->hpib_acr = AUX_GTS; if (cnt) { while (--cnt > 0) { hd->hpib_data = *addr++; if (nhpibwait(hd, MIS_BO)) goto senderror; } hd->hpib_acr = AUX_EOI; hd->hpib_data = *addr; if (nhpibwait(hd, MIS_BO)) goto senderror; hd->hpib_acr = AUX_TCA; #if 0 /* * May be causing 345 disks to hang due to interference * with PPOLL mechanism. */ hd->hpib_data = C_UNL_P; (void) nhpibwait(hd, MIS_BO); #endif } return(origcnt); senderror: nhpibifc(hd); return(origcnt - cnt - 1); } int nhpibrecv(unit, slave, sec, ptr, origcnt) int unit, slave, sec, origcnt; void *ptr; { register struct hpib_softc *hs = &hpib_softc[unit]; register struct nhpibdevice *hd; register int cnt = origcnt; char *addr = ptr; hd = (struct nhpibdevice *)hs->sc_hc->hp_addr; /* * Slave < 0 implies continuation of a previous receive * that probably timed out. */ if (slave >= 0) { hd->hpib_acr = AUX_TCA; hd->hpib_data = C_UNL_P; if (nhpibwait(hd, MIS_BO)) goto recverror; hd->hpib_data = listnr_par[hs->sc_ba]; hd->hpib_acr = AUX_SLON; if (nhpibwait(hd, MIS_BO)) goto recverror; hd->hpib_data = talker_par[slave]; if (nhpibwait(hd, MIS_BO)) goto recverror; if (sec >= 0) { hd->hpib_data = sec_par[sec]; if (nhpibwait(hd, MIS_BO)) goto recverror; } hd->hpib_acr = AUX_RHDF; hd->hpib_acr = AUX_GTS; } if (cnt) { while (--cnt >= 0) { if (nhpibwait(hd, MIS_BI)) goto recvbyteserror; *addr++ = hd->hpib_data; } hd->hpib_acr = AUX_TCA; hd->hpib_data = (slave == 31) ? C_UNA_P : C_UNT_P; (void) nhpibwait(hd, MIS_BO); } return(origcnt); recverror: nhpibifc(hd); recvbyteserror: return(origcnt - cnt - 1); } void nhpibgo(unit, slave, sec, ptr, count, rw, timo) int unit, slave, sec, count, rw, timo; void *ptr; { register struct hpib_softc *hs = &hpib_softc[unit]; register struct nhpibdevice *hd; char *addr = ptr; hd = (struct nhpibdevice *)hs->sc_hc->hp_addr; 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("nhpibgo: HPIBF_READ still set\n"); hs->sc_flags &= ~HPIBF_READ; } #endif hs->sc_count = count; hs->sc_addr = addr; if (hs->sc_flags & HPIBF_READ) { hs->sc_curcnt = count; dmago(hs->sc_dq.dq_ctlr, addr, count, DMAGO_BYTE|DMAGO_READ); nhpibrecv(unit, slave, sec, 0, 0); hd->hpib_mim = MIS_END; } else { hd->hpib_mim = 0; if (count < hpibdmathresh) { hs->sc_curcnt = count; nhpibsend(unit, slave, sec, addr, count); nhpibdone(unit); return; } hs->sc_curcnt = --count; dmago(hs->sc_dq.dq_ctlr, addr, count, DMAGO_BYTE); nhpibsend(unit, slave, sec, 0, 0); } hd->hpib_ie = IDS_IE | IDS_DMA(hs->sc_dq.dq_ctlr); } /* * This timeout can only happen if a DMA read finishes DMAing with the read * still pending (more data in read transaction than the driver was prepared * to accept). At the moment, variable-record tape drives are the only things * capabale of doing this. We repeat the necessary code from nhpibintr() - * easier and quicker than calling nhpibintr() for this special case. */ void nhpibreadtimo(arg) void *arg; { int unit; register struct hpib_softc *hs; int s = splbio(); unit = (int)arg; hs = &hpib_softc[unit]; if (hs->sc_flags & HPIBF_IO) { register struct nhpibdevice *hd; register struct devqueue *dq; hd = (struct nhpibdevice *)hs->sc_hc->hp_addr; hd->hpib_mim = 0; hd->hpib_acr = AUX_TCA; hs->sc_flags &= ~(HPIBF_DONE|HPIBF_IO|HPIBF_READ|HPIBF_TIMO); dmafree(&hs->sc_dq); dq = hs->sc_sq.dq_forw; (dq->dq_driver->d_intr)(dq->dq_softc); } (void) splx(s); } void nhpibdone(unit) register int unit; { register struct hpib_softc *hs = &hpib_softc[unit]; register struct nhpibdevice *hd; register int cnt; hd = (struct nhpibdevice *)hs->sc_hc->hp_addr; cnt = hs->sc_curcnt; hs->sc_addr += cnt; hs->sc_count -= cnt; hs->sc_flags |= HPIBF_DONE; hd->hpib_ie = IDS_IE; if (hs->sc_flags & HPIBF_READ) { if ((hs->sc_flags & HPIBF_TIMO) && (hd->hpib_ids & IDS_IR) == 0) timeout(nhpibreadtimo, (void *)unit, hz >> 2); } else { if (hs->sc_count == 1) { (void) nhpibwait(hd, MIS_BO); hd->hpib_acr = AUX_EOI; hd->hpib_data = *hs->sc_addr; hd->hpib_mim = MIS_BO; } #ifdef DEBUG else if (hs->sc_count) panic("nhpibdone"); #endif } } int nhpibintr(arg) void *arg; { register struct hpib_softc *hs = arg; register struct nhpibdevice *hd; register struct devqueue *dq; register int stat0; int stat1, unit = hs->sc_hc->hp_unit; #ifdef lint if (stat1 = unit) return(1); #endif hd = (struct nhpibdevice *)hs->sc_hc->hp_addr; if ((hd->hpib_ids & IDS_IR) == 0) return(0); stat0 = hd->hpib_mis; stat1 = hd->hpib_lis; dq = hs->sc_sq.dq_forw; if (hs->sc_flags & HPIBF_IO) { hd->hpib_mim = 0; if ((hs->sc_flags & HPIBF_DONE) == 0) { hs->sc_flags &= ~HPIBF_TIMO; dmastop(hs->sc_dq.dq_ctlr); } else if (hs->sc_flags & HPIBF_TIMO) untimeout(nhpibreadtimo, (void *)unit); hd->hpib_acr = AUX_TCA; hs->sc_flags &= ~(HPIBF_DONE|HPIBF_IO|HPIBF_READ|HPIBF_TIMO); dmafree(&hs->sc_dq); (dq->dq_driver->d_intr)(dq->dq_softc); } else if (hs->sc_flags & HPIBF_PPOLL) { hd->hpib_mim = 0; stat0 = nhpibppoll(unit); if (stat0 & (0x80 >> dq->dq_slave)) { hs->sc_flags &= ~HPIBF_PPOLL; (dq->dq_driver->d_intr)(dq->dq_softc); } #ifdef DEBUG else printf("%s: PPOLL intr bad status %x\n", hs->sc_hc->hp_xname, stat0); #endif } return(1); } int nhpibppoll(unit) int unit; { register struct nhpibdevice *hd; register int ppoll; hd = (struct nhpibdevice *)hpib_softc[unit].sc_hc->hp_addr; hd->hpib_acr = AUX_SPP; DELAY(25); ppoll = hd->hpib_cpt; hd->hpib_acr = AUX_CPP; return(ppoll); } #ifdef DEBUG int nhpibreporttimo = 0; #endif int nhpibwait(hd, x) register struct nhpibdevice *hd; int x; { register int timo = hpibtimeout; while ((hd->hpib_mis & x) == 0 && --timo) DELAY(1); if (timo == 0) { #ifdef DEBUG if (nhpibreporttimo) printf("hpib0: %s timo\n", x==MIS_BO?"OUT":"IN"); #endif return(-1); } return(0); } void nhpibppwatch(arg) void *arg; { register struct hpib_softc *hs; register int unit; extern int cold; unit = (int)arg; hs = &hpib_softc[unit]; if ((hs->sc_flags & HPIBF_PPOLL) == 0) return; again: if (nhpibppoll(unit) & (0x80 >> hs->sc_sq.dq_forw->dq_slave)) ((struct nhpibdevice *)hs->sc_hc->hp_addr)->hpib_mim = MIS_BO; else if (cold) /* timeouts not working yet */ goto again; else timeout(nhpibppwatch, (void *)unit, 1); } #endif /* NHPIB > 0 */