/* * Copyright (c) 1986 The Regents of the University of California. * All rights reserved. * * Redistribution and use in source and binary forms are permitted * provided that the above copyright notice and this paragraph are * duplicated in all such forms and that any documentation, * advertising materials, and other materials related to such * distribution and use acknowledge that the software was developed * by the University of California, Berkeley. The name of the * University may not be used to endorse or promote products derived * from this software without specific prior written permission. * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. * * @(#)ik.c 7.4 (Berkeley) 05/09/89 */ #include "ik.h" #if NIK > 0 /* * PS300/IKON DR-11W Device Driver. */ #include "param.h" #include "buf.h" #include "cmap.h" #include "conf.h" #include "dkstat.h" #include "map.h" #include "systm.h" #include "user.h" #include "vmmac.h" #include "proc.h" #include "kernel.h" #include "syslog.h" #include "../tahoe/mtpr.h" #include "../tahoe/pte.h" #include "../tahoevba/vbavar.h" #include "../tahoevba/ikreg.h" #include "../tahoevba/psreg.h" #include "../tahoevba/psproto.h" int ikprobe(), ikattach(), iktimer(); struct vba_device *ikinfo[NIK]; long ikstd[] = { 0 }; struct vba_driver ikdriver = { ikprobe, 0, ikattach, 0, ikstd, "ik", ikinfo }; #define splik() spl4() /* * Devices are organized in pairs with the odd valued * device being used for ``diagnostic'' purposes. That * is diagnostic devices don't get auto-attach'd and * detach'd on open-close. */ #define IKUNIT(dev) (minor(dev) >> 1) #define IKDIAG(dev) (minor(dev) & 01) /* is a diagnostic unit */ struct ik_softc { uid_t is_uid; /* uid of open processes */ u_short is_timeout; /* current timeout (seconds) */ u_short is_error; /* internal error codes */ u_short is_flags; #define IKF_ATTACHED 0x1 /* unit is attached (not used yet) */ union { u_short w[2]; u_long l; } is_nameaddr; /* address of last symbol lookup */ caddr_t is_buf[PS_MAXDMA];/* i/o buffer XXX */ } ik_softc[NIK]; struct buf iktab[NIK]; /* unit command queue headers */ struct buf rikbuf[NIK]; /* buffers for read/write operations */ struct buf cikbuf[NIK]; /* buffers for control operations */ /* buf overlay definitions */ #define b_command b_resid int ikdiotimo = PS_DIOTIMO; /* dio polling timeout */ int iktimeout = PS_TIMEOUT; /* attention/dma timeout (in hz) */ ikprobe(reg, vi) caddr_t reg; struct vba_device *vi; { register int br, cvec; /* r12, r11 */ register struct ikdevice *ik; #ifdef lint br = 0; cvec = br; br = cvec; ikintr(0); #endif if (badaddr(reg, 2)) return (0); ik = (struct ikdevice *)reg; ik->ik_vec = --vi->ui_hd->vh_lastiv; /* * Use extended non-privileged address modifier * to avoid address overlap with 24-bit devices. */ ik->ik_mod = 0xf1; /* address modifier */ /* * Try and reset the PS300. Since this * won't work if it's powered off, we * can't use sucess/failure to decide * if the device is present. */ br = 0; (void) psreset(ik, IKCSR_IENA); if (br == 0) /* XXX */ br = 0x18, cvec = ik->ik_vec; /* XXX */ return (sizeof (struct ikdevice)); } /* * Perform a ``hard'' reset. */ psreset(ik, iena) register struct ikdevice *ik; { ik->ik_csr = IKCSR_MCLR|iena; DELAY(10000); ik->ik_csr = IKCSR_FNC3|iena; if (!iena) return (dioread(ik) == PS_RESET); return (1); } ikattach(vi) struct vba_device *vi; { ik_softc[vi->ui_unit].is_uid = -1; } /* * Open a PS300 and attach. We allow multiple * processes with the same uid to share a unit. */ /*ARGSUSED*/ ikopen(dev, flag) dev_t dev; int flag; { register int unit = IKUNIT(dev); register struct ik_softc *sc; struct vba_device *vi; struct ikdevice *ik; int reset; if (unit >= NIK || (vi = ikinfo[unit]) == 0 || vi->ui_alive == 0) return (ENXIO); sc = &ik_softc[unit]; if (sc->is_uid != (uid_t)-1 && sc->is_uid != u.u_uid) return (EBUSY); if (sc->is_uid == (uid_t)-1) { sc->is_timeout = 0; timeout(iktimer, (caddr_t)unit, hz); /* * Perform PS300 attach for first process. */ if (!IKDIAG(dev)) { reset = 0; again: if (ikcommand(dev, PS_ATTACH, 1)) { /* * If attach fails, perform a hard * reset once, then retry the command. */ ik = (struct ikdevice *)ikinfo[unit]->ui_addr; if (!reset++ && psreset(ik, 0)) goto again; untimeout(iktimer, (caddr_t)unit); return (EIO); } } sc->is_uid = u.u_uid; } return (0); } /*ARGSUSED*/ ikclose(dev, flag) dev_t dev; int flag; { int unit = IKUNIT(dev); register struct ik_softc *sc = &ik_softc[unit]; if (!IKDIAG(dev)) (void) ikcommand(dev, PS_DETACH, 1); /* auto detach */ sc->is_uid = -1; untimeout(iktimer, (caddr_t)unit); } ikread(dev, uio) dev_t dev; struct uio *uio; { return (ikrw(dev, uio, B_READ)); } ikwrite(dev, uio) dev_t dev; struct uio *uio; { return (ikrw(dev, uio, B_WRITE)); } /* * Take read/write request and perform physical i/o * transaction with PS300. This involves constructing * a physical i/o request vector based on the uio * vector, performing the dma, and, finally, moving * the data to it's final destination (because of CCI * VERSAbus bogosities). */ ikrw(dev, uio, rw) dev_t dev; register struct uio *uio; int rw; { int error, unit = IKUNIT(dev), s, wrcmd; register struct buf *bp; register struct iovec *iov; register struct psalist *ap; struct ik_softc *sc = &ik_softc[unit]; if (unit >= NIK) return (ENXIO); bp = &rikbuf[unit]; error = 0, iov = uio->uio_iov, wrcmd = PS_WRPHY; for (; !error && uio->uio_iovcnt; iov++, uio->uio_iovcnt--) { /* * Hack way to set PS300 address w/o doing an lseek * and specify write physical w/ refresh synchronization. */ if (iov->iov_len == 0) { if ((int)iov->iov_base&PSIO_SYNC) wrcmd = PS_WRPHY_SYNC; uio->uio_offset = (int)iov->iov_base & ~PSIO_SYNC; continue; } if (iov->iov_len > PS_MAXDMA) { sc->is_error = PSERROR_INVALBC, error = EINVAL; continue; } if ((int)uio->uio_offset&01) { sc->is_error = PSERROR_BADADDR, error = EINVAL; continue; } s = splbio(); while (bp->b_flags&B_BUSY) { bp->b_flags |= B_WANTED; sleep((caddr_t)bp, PRIBIO+1); } splx(s); bp->b_flags = B_BUSY | rw; /* * Construct address descriptor in buffer. */ ap = (struct psalist *)sc->is_buf; ap->nblocks = 1; /* work-around dr300 word swapping */ ap->addr[0] = uio->uio_offset & 0xffff; ap->addr[1] = uio->uio_offset >> 16; ap->wc = (iov->iov_len + 1) >> 1; if (rw == B_WRITE) { error = copyin(iov->iov_base, (caddr_t)&ap[1], (unsigned)iov->iov_len); if (!error) error = ikcommand(dev, wrcmd, iov->iov_len + sizeof (*ap)); } else { caddr_t cp; int len; error = ikcommand(dev, PS_RDPHY, sizeof (*ap)); cp = (caddr_t)&ap[1], len = iov->iov_len; for (; len > 0; len -= NBPG, cp += NBPG) mtpr(P1DC, cp); if (!error) error = copyout((caddr_t)&ap[1], iov->iov_base, (unsigned)iov->iov_len); } (void) splbio(); if (bp->b_flags&B_WANTED) wakeup((caddr_t)bp); splx(s); uio->uio_resid -= iov->iov_len; uio->uio_offset += iov->iov_len; bp->b_flags &= ~(B_BUSY|B_WANTED); } return (error); } /* * Perform a PS300 command. */ ikcommand(dev, com, count) dev_t dev; int com, count; { register struct buf *bp; register int s; int error; bp = &cikbuf[IKUNIT(dev)]; s = splik(); while (bp->b_flags&B_BUSY) { if (bp->b_flags&B_DONE) break; bp->b_flags |= B_WANTED; sleep((caddr_t)bp, PRIBIO); } bp->b_flags = B_BUSY|B_READ; splx(s); bp->b_dev = dev; bp->b_command = com; bp->b_bcount = count; ikstrategy(bp); error = biowait(bp); if (bp->b_flags&B_WANTED) wakeup((caddr_t)bp); bp->b_flags &= B_ERROR; return (error); } /* * Physio strategy routine */ ikstrategy(bp) register struct buf *bp; { register struct buf *dp; /* * Put request at end of controller queue. */ dp = &iktab[IKUNIT(bp->b_dev)]; bp->av_forw = NULL; (void) splik(); if (dp->b_actf != NULL) { dp->b_actl->av_forw = bp; dp->b_actl = bp; } else dp->b_actf = dp->b_actl = bp; if (!dp->b_active) ikstart(dp); (void) spl0(); } /* * Start the next command on the controller's queue. */ ikstart(dp) register struct buf *dp; { register struct buf *bp; register struct ikdevice *ik; register struct ik_softc *sc; u_short bc, csr; u_int addr; int unit; loop: /* * Pull a request off the controller queue */ if ((bp = dp->b_actf) == NULL) { dp->b_active = 0; return; } /* * Mark controller busy and process this request. */ dp->b_active = 1; unit = IKUNIT(bp->b_dev); sc = &ik_softc[unit]; ik = (struct ikdevice *)ikinfo[unit]->ui_addr; switch ((int)bp->b_command) { case PS_ATTACH: /* logical unit attach */ case PS_DETACH: /* logical unit detach */ case PS_LOOKUP: /* name lookup */ case PS_RDPHY: /* physical i/o read */ case PS_WRPHY: /* physical i/o write */ case PS_WRPHY_SYNC: /* physical i/o write w/ sync */ /* * Handshake command and, optionally, * byte count and byte swap flag. */ if (sc->is_error = diowrite(ik, (u_short)bp->b_command)) goto bad; if (bp->b_command < PS_DETACH) { if (sc->is_error = diowrite(ik, (u_short)bp->b_bcount)) goto bad; if (sc->is_error = diowrite(ik, (u_short)0 /* !swab */)) goto bad; } /* * Set timeout and wait for an attention interrupt. */ sc->is_timeout = iktimeout; return; case PS_DMAOUT: /* dma data host->PS300 */ bc = bp->b_bcount; csr = IKCSR_CYCLE; break; case PS_DMAIN: /* dma data PS300->host */ bc = bp->b_bcount; csr = IKCSR_CYCLE|IKCSR_FNC1; break; default: log(LOG_ERR, "ik%d: bad cmd %x\n", unit, bp->b_command); sc->is_error = PSERROR_BADCMD; goto bad; } /* initiate dma transfer */ addr = vtoph((struct proc *)0, (unsigned)sc->is_buf); ik->ik_bahi = addr >> 17; ik->ik_balo = (addr >> 1) & 0xffff; ik->ik_wc = ((bc + 1) >> 1) - 1; /* round & convert */ ik->ik_pulse = IKPULSE_RATTF|IKPULSE_RDMAF; sc->is_timeout = iktimeout; ik->ik_csr = IKCSR_IENA|IKCSR_GO|csr; return; bad: bp->b_flags |= B_ERROR; dp->b_actf = bp->av_forw; /* remove from queue */ biodone(bp); goto loop; } #define FETCHWORD(i) { \ v = dioread(ik); \ if (v == -1) { \ sc->is_error = PSERROR_NAMETIMO; \ goto bad; \ } \ sc->is_nameaddr.w[i] = v; \ } /* * Process a device interrupt. */ ikintr(ikon) int ikon; { register struct ikdevice *ik; register struct buf *bp, *dp; struct ik_softc *sc; register u_short data; int v; /* should go by controller, but for now... */ if (ikinfo[ikon] == 0) return; ik = (struct ikdevice *)ikinfo[ikon]->ui_addr; /* * Discard all non-attention interrupts. The * interrupts we're throwing away should all be * associated with DMA completion. */ data = ik->ik_data; if ((ik->ik_csr&(IKCSR_ATTF|IKCSR_STATC)) != IKCSR_ATTF) { ik->ik_pulse = IKPULSE_RATTF|IKPULSE_RDMAF|IKPULSE_SIENA; return; } /* * Fetch attention code immediately. */ ik->ik_csr = IKCSR_RATTF|IKCSR_RDMAF|IKCSR_FNC1; ik->ik_pulse = IKPULSE_FNC2; /* * Get device and block structures, and a pointer * to the vba_device for the device. We receive an * unsolicited interrupt whenever the PS300 is power * cycled (so ignore it in that case). */ dp = &iktab[ikon]; if ((bp = dp->b_actf) == NULL) { if (PS_CODE(data) != PS_RESET) /* power failure */ log(LOG_WARNING, "ik%d: spurious interrupt, code %x\n", ikon, data); goto enable; } sc = &ik_softc[IKUNIT(bp->b_dev)]; sc->is_timeout = 0; /* disable timer */ switch (PS_CODE(data)) { case PS_LOOKUP: /* name lookup */ if (data == PS_LOOKUP) { /* dma name */ bp->b_command = PS_DMAOUT; goto opcont; } if (data == PS_DMAOK(PS_LOOKUP)) { /* reenable interrupt and wait for address */ sc->is_timeout = iktimeout; goto enable; } /* * Address should be present, extract it one * word at a time from the PS300 (yech). */ if (data != PS_ADROK(PS_LOOKUP)) goto bad; FETCHWORD(0); FETCHWORD(1); goto opdone; case PS_WRPHY_SYNC: /* physical i/o write w/ sync */ if (data == PS_WRPHY_SYNC) { /* start dma transfer */ bp->b_command = PS_DMAOUT; goto opcont; } if (data != PS_DMAOK(PS_WRPHY_SYNC)) goto bad; goto opdone; case PS_WRPHY: /* physical i/o write */ if (data == PS_WRPHY) { /* start dma transfer */ bp->b_command = PS_DMAOUT; goto opcont; } if (data != PS_DMAOK(PS_WRPHY)) goto bad; goto opdone; case PS_ATTACH: /* attach unit */ case PS_DETACH: /* detach unit */ case PS_ABORT: /* abort code from ps300 */ if (data != bp->b_command) goto bad; goto opdone; case PS_RDPHY: /* physical i/o read */ if (data == PS_RDPHY) { /* dma address list */ bp->b_command = PS_DMAOUT; goto opcont; } if (data == PS_ADROK(PS_RDPHY)) { /* collect read byte count and start dma */ bp->b_bcount = dioread(ik); if (bp->b_bcount == -1) goto bad; bp->b_command = PS_DMAIN; goto opcont; } if (data == PS_DMAOK(PS_RDPHY)) goto opdone; goto bad; } bad: sc->is_error = data; bp->b_flags |= B_ERROR; opdone: dp->b_actf = bp->av_forw; /* remove from queue */ biodone(bp); opcont: ikstart(dp); enable: ik->ik_pulse = IKPULSE_SIENA; /* explicitly reenable */ } /* * Watchdog timer. */ iktimer(unit) int unit; { register struct ik_softc *sc = &ik_softc[unit]; if (sc->is_timeout && --sc->is_timeout == 0) { register struct buf *dp, *bp; int s; log(LOG_ERR, "ik%d: timeout\n", unit); s = splik(); /* should abort current command */ dp = &iktab[unit]; if (bp = dp->b_actf) { sc->is_error = PSERROR_CMDTIMO; bp->b_flags |= B_ERROR; dp->b_actf = bp->av_forw; /* remove from queue */ biodone(bp); ikstart(dp); } splx(s); } timeout(iktimer, (caddr_t)unit, hz); } /* * Handshake read from DR300. */ dioread(ik) register struct ikdevice *ik; { register int t; u_short data; for (t = ikdiotimo; t > 0; t--) if ((ik->ik_csr&(IKCSR_ATTF|IKCSR_STATC)) == IKCSR_ATTF) { data = ik->ik_data; ik->ik_csr = IKCSR_RATTF|IKCSR_RDMAF|IKCSR_FNC1; ik->ik_pulse = IKPULSE_FNC2; return (data); } return (-1); } /* * Handshake write to DR300. * * Interrupts are enabled before completing the work * so the caller should either be at splik or be * prepared to take the interrupt immediately. */ diowrite(ik, v) register struct ikdevice *ik; u_short v; { register int t; register u_short csr; top: /* * Deposit data and generate dr300 attention */ ik->ik_data = v; ik->ik_csr = IKCSR_RDMAF|IKCSR_RATTF; ik->ik_pulse = IKPULSE_FNC2; for (t = ikdiotimo; t > 0; t--) { csr = ik->ik_csr; #define IKCSR_DONE (IKCSR_STATA|IKCSR_STATC) if ((csr&IKCSR_DONE) == IKCSR_DONE) { /* * Done, complete handshake by notifying dr300. */ ik->ik_csr = IKCSR_IENA; /* ~IKCSR_FNC1 */ ik->ik_pulse = IKPULSE_FNC2; return (0); } /* beware of potential deadlock with dioread */ if ((csr&(IKCSR_ATTF|IKCSR_STATC)) == IKCSR_ATTF) goto top; } ik->ik_csr = IKCSR_IENA; return (PSERROR_DIOTIMO); } /*ARGSUSED*/ ikioctl(dev, cmd, data, flag) dev_t dev; int cmd; caddr_t data; int flag; { int error = 0, unit = IKUNIT(dev), s; register struct ik_softc *sc = &ik_softc[unit]; switch (cmd) { case PSIOGETERROR: /* get error code for last operation */ *(int *)data = sc->is_error; break; case PSIOLOOKUP: { /* PS300 name lookup */ register struct pslookup *lp = (struct pslookup *)data; register struct buf *bp; if (lp->pl_len > PS_MAXNAMELEN) return (EINVAL); bp = &rikbuf[unit]; s = splbio(); while (bp->b_flags&B_BUSY) { bp->b_flags |= B_WANTED; sleep((caddr_t)bp, PRIBIO+1); } splx(s); bp->b_flags = B_BUSY | B_WRITE; error = copyin(lp->pl_name, (caddr_t)sc->is_buf, (unsigned)lp->pl_len); if (error == 0) { if (lp->pl_len&1) sc->is_buf[lp->pl_len] = '\0'; error = ikcommand(dev, PS_LOOKUP, lp->pl_len); } s = splbio(); if (bp->b_flags&B_WANTED) wakeup((caddr_t)bp); splx(s); bp->b_flags &= ~(B_BUSY|B_WANTED); lp->pl_addr = sc->is_nameaddr.l; break; } default: return (ENOTTY); } return (error); } #endif