1*34506Skarels /* 2*34506Skarels * @(#)ik.c 1.6 (Berkeley) 05/26/88 3*34506Skarels */ 430222Ssam 530222Ssam #include "ik.h" 630222Ssam #if NIK > 0 730222Ssam /* 830222Ssam * PS300/IKON DR-11W Device Driver. 930222Ssam */ 1030222Ssam #include "param.h" 1130222Ssam #include "buf.h" 1230222Ssam #include "cmap.h" 1330222Ssam #include "conf.h" 1430222Ssam #include "dir.h" 1530222Ssam #include "dkstat.h" 1630222Ssam #include "map.h" 1730222Ssam #include "systm.h" 1830222Ssam #include "user.h" 1930222Ssam #include "vmmac.h" 2030222Ssam #include "proc.h" 2130222Ssam #include "uio.h" 2230222Ssam #include "kernel.h" 2330228Ssam #include "syslog.h" 2430222Ssam 2530222Ssam #include "../tahoe/mtpr.h" 2630222Ssam #include "../tahoe/pte.h" 2730222Ssam 2830222Ssam #include "../tahoevba/vbavar.h" 2930222Ssam #include "../tahoevba/ikreg.h" 3030222Ssam #include "../tahoevba/psreg.h" 3130222Ssam #include "../tahoevba/psproto.h" 3230222Ssam 3330286Ssam int ikprobe(), ikattach(), iktimer(); 3430286Ssam struct vba_device *ikinfo[NIK]; 3530286Ssam long ikstd[] = { 0 }; 3630286Ssam struct vba_driver ikdriver = { ikprobe, 0, ikattach, 0, ikstd, "ik", ikinfo }; 3730222Ssam 3830286Ssam #define splik() spl4() 3930222Ssam /* 4030222Ssam * Devices are organized in pairs with the odd valued 4130222Ssam * device being used for ``diagnostic'' purposes. That 4230222Ssam * is diagnostic devices don't get auto-attach'd and 4330222Ssam * detach'd on open-close. 4430222Ssam */ 4530286Ssam #define IKUNIT(dev) (minor(dev) >> 1) 4630286Ssam #define IKDIAG(dev) (minor(dev) & 01) /* is a diagnostic unit */ 4730222Ssam 4830286Ssam struct ik_softc { 4930286Ssam uid_t is_uid; /* uid of open processes */ 5030286Ssam u_short is_timeout; /* current timeout (seconds) */ 5130286Ssam u_short is_error; /* internal error codes */ 5230286Ssam u_short is_flags; 5330286Ssam #define IKF_ATTACHED 0x1 /* unit is attached (not used yet) */ 5430286Ssam union { 5530286Ssam u_short w[2]; 5630286Ssam u_long l; 5730286Ssam } is_nameaddr; /* address of last symbol lookup */ 5830344Ssam caddr_t is_buf[PS_MAXDMA];/* i/o buffer XXX */ 5930222Ssam } ik_softc[NIK]; 6030222Ssam 6130286Ssam struct buf iktab[NIK]; /* unit command queue headers */ 6230286Ssam struct buf rikbuf[NIK]; /* buffers for read/write operations */ 6330286Ssam struct buf cikbuf[NIK]; /* buffers for control operations */ 6430222Ssam 6530222Ssam /* buf overlay definitions */ 6630286Ssam #define b_command b_resid 6730222Ssam 6830286Ssam int ikdiotimo = PS_DIOTIMO; /* dio polling timeout */ 6930286Ssam int iktimeout = PS_TIMEOUT; /* attention/dma timeout (in hz) */ 7030222Ssam 7130222Ssam ikprobe(reg, vi) 7230286Ssam caddr_t reg; 7330222Ssam struct vba_device *vi; 7430222Ssam { 7530286Ssam register int br, cvec; /* r12, r11 */ 7630222Ssam register struct ikdevice *ik; 7730222Ssam 7830294Ssam #ifdef lint 7930294Ssam br = 0; cvec = br; br = cvec; 8030294Ssam ikintr(0); 8130294Ssam #endif 8230286Ssam if (badaddr(reg, 2)) 8330286Ssam return (0); 8430222Ssam ik = (struct ikdevice *)reg; 8530222Ssam ik->ik_vec = --vi->ui_hd->vh_lastiv; 8630286Ssam /* 8730344Ssam * Use extended non-privileged address modifier 8830344Ssam * to avoid address overlap with 24-bit devices. 8930286Ssam */ 9030286Ssam ik->ik_mod = 0xf1; /* address modifier */ 9130286Ssam /* 9230286Ssam * Try and reset the PS300. Since this 9330286Ssam * won't work if it's powered off, we 9430286Ssam * can't use sucess/failure to decide 9530286Ssam * if the device is present. 9630286Ssam */ 9730222Ssam br = 0; 9830286Ssam (void) psreset(ik, IKCSR_IENA); 9930286Ssam if (br == 0) /* XXX */ 10030222Ssam br = 0x18, cvec = ik->ik_vec; /* XXX */ 10130286Ssam return (sizeof (struct ikdevice)); 10230222Ssam } 10330222Ssam 10430222Ssam /* 10530222Ssam * Perform a ``hard'' reset. 10630222Ssam */ 10730222Ssam psreset(ik, iena) 10830286Ssam register struct ikdevice *ik; 10930222Ssam { 11030222Ssam 11130286Ssam ik->ik_csr = IKCSR_MCLR|iena; 11230286Ssam DELAY(10000); 11330286Ssam ik->ik_csr = IKCSR_FNC3|iena; 11430286Ssam if (!iena) 11530286Ssam return (dioread(ik) == PS_RESET); 11630286Ssam return (1); 11730222Ssam } 11830222Ssam 11930222Ssam ikattach(vi) 12030286Ssam struct vba_device *vi; 12130222Ssam { 12230222Ssam 12330286Ssam ik_softc[vi->ui_unit].is_uid = -1; 12430222Ssam } 12530222Ssam 12630222Ssam /* 12730222Ssam * Open a PS300 and attach. We allow multiple 12830222Ssam * processes with the same uid to share a unit. 12930222Ssam */ 13030222Ssam /*ARGSUSED*/ 13130222Ssam ikopen(dev, flag) 13230286Ssam dev_t dev; 13330286Ssam int flag; 13430222Ssam { 13530286Ssam register int unit = IKUNIT(dev); 13630286Ssam register struct ik_softc *sc; 13730286Ssam struct vba_device *vi; 13830286Ssam struct ikdevice *ik; 13930286Ssam int reset; 14030222Ssam 14130286Ssam if (unit >= NIK || (vi = ikinfo[unit]) == 0 || vi->ui_alive == 0) 14230286Ssam return (ENXIO); 14330286Ssam sc = &ik_softc[unit]; 14430294Ssam if (sc->is_uid != (uid_t)-1 && sc->is_uid != u.u_uid) 14530286Ssam return (EBUSY); 14630294Ssam if (sc->is_uid == (uid_t)-1) { 14730286Ssam sc->is_timeout = 0; 14830294Ssam timeout(iktimer, (caddr_t)unit, hz); 14930286Ssam /* 15030286Ssam * Perform PS300 attach for first process. 15130286Ssam */ 15230286Ssam if (!IKDIAG(dev)) { 15330286Ssam reset = 0; 15430286Ssam again: 15530286Ssam if (ikcommand(dev, PS_ATTACH, 1)) { 15630286Ssam /* 15730286Ssam * If attach fails, perform a hard 15830286Ssam * reset once, then retry the command. 15930286Ssam */ 16030286Ssam ik = (struct ikdevice *)ikinfo[unit]->ui_addr; 16130286Ssam if (!reset++ && psreset(ik, 0)) 16230286Ssam goto again; 16330294Ssam untimeout(iktimer, (caddr_t)unit); 16430286Ssam return (EIO); 16530286Ssam } 16630286Ssam } 16730286Ssam sc->is_uid = u.u_uid; 16830286Ssam } 16930286Ssam return (0); 17030222Ssam } 17130222Ssam 17230222Ssam /*ARGSUSED*/ 17330222Ssam ikclose(dev, flag) 17430286Ssam dev_t dev; 17530286Ssam int flag; 17630222Ssam { 17730286Ssam int unit = IKUNIT(dev); 17830222Ssam register struct ik_softc *sc = &ik_softc[unit]; 17930222Ssam 18030286Ssam if (!IKDIAG(dev)) 18130286Ssam (void) ikcommand(dev, PS_DETACH, 1); /* auto detach */ 18230286Ssam sc->is_uid = -1; 18330294Ssam untimeout(iktimer, (caddr_t)unit); 18430222Ssam } 18530222Ssam 18630222Ssam ikread(dev, uio) 18730286Ssam dev_t dev; 18830286Ssam struct uio *uio; 18930222Ssam { 19030222Ssam 19130286Ssam return (ikrw(dev, uio, B_READ)); 19230222Ssam } 19330222Ssam 19430222Ssam ikwrite(dev, uio) 19530286Ssam dev_t dev; 19630286Ssam struct uio *uio; 19730222Ssam { 19830222Ssam 19930286Ssam return (ikrw(dev, uio, B_WRITE)); 20030222Ssam } 20130222Ssam 20230222Ssam /* 20330222Ssam * Take read/write request and perform physical i/o 20430222Ssam * transaction with PS300. This involves constructing 20530222Ssam * a physical i/o request vector based on the uio 20630222Ssam * vector, performing the dma, and, finally, moving 20730222Ssam * the data to it's final destination (because of CCI 20830222Ssam * VERSAbus bogosities). 20930222Ssam */ 21030222Ssam ikrw(dev, uio, rw) 21130286Ssam dev_t dev; 21230286Ssam register struct uio *uio; 21330286Ssam int rw; 21430222Ssam { 21530286Ssam int error, unit = IKUNIT(dev), s, wrcmd; 21630286Ssam register struct buf *bp; 21730286Ssam register struct iovec *iov; 21830286Ssam register struct psalist *ap; 21930286Ssam struct ik_softc *sc = &ik_softc[unit]; 22030222Ssam 22130286Ssam if (unit >= NIK) 22230286Ssam return (ENXIO); 22330286Ssam bp = &rikbuf[unit]; 22430286Ssam error = 0, iov = uio->uio_iov, wrcmd = PS_WRPHY; 22530286Ssam for (; !error && uio->uio_iovcnt; iov++, uio->uio_iovcnt--) { 22630286Ssam /* 22730286Ssam * Hack way to set PS300 address w/o doing an lseek 22830286Ssam * and specify write physical w/ refresh synchronization. 22930286Ssam */ 23030286Ssam if (iov->iov_len == 0) { 23130286Ssam if ((int)iov->iov_base&PSIO_SYNC) 23230286Ssam wrcmd = PS_WRPHY_SYNC; 23330286Ssam uio->uio_offset = (int)iov->iov_base & ~PSIO_SYNC; 23430286Ssam continue; 23530286Ssam } 23630286Ssam if (iov->iov_len > PS_MAXDMA) { 23730286Ssam sc->is_error = PSERROR_INVALBC, error = EINVAL; 23830286Ssam continue; 23930286Ssam } 24030286Ssam if ((int)uio->uio_offset&01) { 24130286Ssam sc->is_error = PSERROR_BADADDR, error = EINVAL; 24230286Ssam continue; 24330286Ssam } 24430286Ssam s = splbio(); 24530286Ssam while (bp->b_flags&B_BUSY) { 24630286Ssam bp->b_flags |= B_WANTED; 24730286Ssam sleep((caddr_t)bp, PRIBIO+1); 24830286Ssam } 24930286Ssam splx(s); 25030286Ssam bp->b_flags = B_BUSY | rw; 25130286Ssam /* 25230286Ssam * Construct address descriptor in buffer. 25330286Ssam */ 25430286Ssam ap = (struct psalist *)sc->is_buf; 25530286Ssam ap->nblocks = 1; 25630286Ssam /* work-around dr300 word swapping */ 25730286Ssam ap->addr[0] = uio->uio_offset & 0xffff; 25830286Ssam ap->addr[1] = uio->uio_offset >> 16; 25930286Ssam ap->wc = (iov->iov_len + 1) >> 1; 26030286Ssam if (rw == B_WRITE) { 26130286Ssam error = copyin(iov->iov_base, (caddr_t)&ap[1], 26230294Ssam (unsigned)iov->iov_len); 26330286Ssam if (!error) 26430286Ssam error = ikcommand(dev, wrcmd, 26530286Ssam iov->iov_len + sizeof (*ap)); 26630286Ssam } else { 26730286Ssam caddr_t cp; 26830286Ssam int len; 26930222Ssam 27030286Ssam error = ikcommand(dev, PS_RDPHY, sizeof (*ap)); 27130286Ssam cp = (caddr_t)&ap[1], len = iov->iov_len; 27230286Ssam for (; len > 0; len -= NBPG, cp += NBPG) 27330286Ssam mtpr(P1DC, cp); 27430286Ssam if (!error) 27530286Ssam error = copyout((caddr_t)&ap[1], iov->iov_base, 27630294Ssam (unsigned)iov->iov_len); 27730286Ssam } 27830286Ssam (void) splbio(); 27930286Ssam if (bp->b_flags&B_WANTED) 28030286Ssam wakeup((caddr_t)bp); 28130286Ssam splx(s); 28230286Ssam uio->uio_resid -= iov->iov_len; 28330286Ssam uio->uio_offset += iov->iov_len; 28430286Ssam bp->b_flags &= ~(B_BUSY|B_WANTED); 28530286Ssam } 28630286Ssam return (error); 28730222Ssam } 28830222Ssam 28930222Ssam /* 29030222Ssam * Perform a PS300 command. 29130222Ssam */ 29230222Ssam ikcommand(dev, com, count) 29330286Ssam dev_t dev; 29430286Ssam int com, count; 29530222Ssam { 29630286Ssam register struct buf *bp; 29730286Ssam register int s; 29830222Ssam 29930286Ssam bp = &cikbuf[IKUNIT(dev)]; 30030286Ssam s = splik(); 30130286Ssam while (bp->b_flags&B_BUSY) { 30230286Ssam if (bp->b_flags&B_DONE) 30330286Ssam break; 30430286Ssam bp->b_flags |= B_WANTED; 30530286Ssam sleep((caddr_t)bp, PRIBIO); 30630286Ssam } 30730286Ssam bp->b_flags = B_BUSY|B_READ; 30830286Ssam splx(s); 30930286Ssam bp->b_dev = dev; 31030286Ssam bp->b_command = com; 31130286Ssam bp->b_bcount = count; 31230286Ssam ikstrategy(bp); 31330286Ssam biowait(bp); 31430286Ssam if (bp->b_flags&B_WANTED) 31530286Ssam wakeup((caddr_t)bp); 31630286Ssam bp->b_flags &= B_ERROR; 31730286Ssam return (geterror(bp)); 31830222Ssam } 31930222Ssam 32030222Ssam /* 32130222Ssam * Physio strategy routine 32230222Ssam */ 32330222Ssam ikstrategy(bp) 32430286Ssam register struct buf *bp; 32530222Ssam { 32630286Ssam register struct buf *dp; 32730222Ssam 32830286Ssam /* 32930286Ssam * Put request at end of controller queue. 33030286Ssam */ 33130286Ssam dp = &iktab[IKUNIT(bp->b_dev)]; 33230286Ssam bp->av_forw = NULL; 33330286Ssam (void) splik(); 33430286Ssam if (dp->b_actf != NULL) { 33530286Ssam dp->b_actl->av_forw = bp; 33630286Ssam dp->b_actl = bp; 33730286Ssam } else 33830286Ssam dp->b_actf = dp->b_actl = bp; 33930286Ssam if (!dp->b_active) 34030286Ssam ikstart(dp); 34130286Ssam (void) spl0(); 34230222Ssam } 34330222Ssam 34430222Ssam /* 34530222Ssam * Start the next command on the controller's queue. 34630222Ssam */ 34730222Ssam ikstart(dp) 34830286Ssam register struct buf *dp; 34930222Ssam { 35030286Ssam register struct buf *bp; 35130286Ssam register struct ikdevice *ik; 35230286Ssam register struct ik_softc *sc; 35330286Ssam u_short bc, csr; 35430286Ssam u_int addr; 35530286Ssam int unit; 35630222Ssam 35730222Ssam loop: 35830286Ssam /* 35930286Ssam * Pull a request off the controller queue 36030286Ssam */ 36130286Ssam if ((bp = dp->b_actf) == NULL) { 36230286Ssam dp->b_active = 0; 36330286Ssam return; 36430286Ssam } 36530286Ssam /* 36630286Ssam * Mark controller busy and process this request. 36730286Ssam */ 36830286Ssam dp->b_active = 1; 36930286Ssam unit = IKUNIT(bp->b_dev); 37030286Ssam sc = &ik_softc[unit]; 37130286Ssam ik = (struct ikdevice *)ikinfo[unit]->ui_addr; 37230294Ssam switch ((int)bp->b_command) { 37330222Ssam 37430286Ssam case PS_ATTACH: /* logical unit attach */ 37530286Ssam case PS_DETACH: /* logical unit detach */ 37630286Ssam case PS_LOOKUP: /* name lookup */ 37730286Ssam case PS_RDPHY: /* physical i/o read */ 37830286Ssam case PS_WRPHY: /* physical i/o write */ 37930286Ssam case PS_WRPHY_SYNC: /* physical i/o write w/ sync */ 38030286Ssam /* 38130286Ssam * Handshake command and, optionally, 38230286Ssam * byte count and byte swap flag. 38330286Ssam */ 38430294Ssam if (sc->is_error = diowrite(ik, (u_short)bp->b_command)) 38530286Ssam goto bad; 38630286Ssam if (bp->b_command < PS_DETACH) { 38730294Ssam if (sc->is_error = diowrite(ik, (u_short)bp->b_bcount)) 38830286Ssam goto bad; 38930294Ssam if (sc->is_error = diowrite(ik, (u_short)0 /* !swab */)) 39030286Ssam goto bad; 39130286Ssam } 39230286Ssam /* 39330286Ssam * Set timeout and wait for an attention interrupt. 39430286Ssam */ 39530286Ssam sc->is_timeout = iktimeout; 39630286Ssam return; 39730222Ssam 39830286Ssam case PS_DMAOUT: /* dma data host->PS300 */ 39930286Ssam bc = bp->b_bcount; 40030286Ssam csr = IKCSR_CYCLE; 40130286Ssam break; 40230222Ssam 40330286Ssam case PS_DMAIN: /* dma data PS300->host */ 40430286Ssam bc = bp->b_bcount; 40530286Ssam csr = IKCSR_CYCLE|IKCSR_FNC1; 40630286Ssam break; 40730222Ssam 40830286Ssam default: 40930286Ssam log(LOG_ERR, "ik%d: bad cmd %x\n", unit, bp->b_command); 41030286Ssam sc->is_error = PSERROR_BADCMD; 41130286Ssam goto bad; 41230286Ssam } 41330286Ssam /* initiate dma transfer */ 41430294Ssam addr = vtoph((struct proc *)0, (unsigned)sc->is_buf); 41530286Ssam ik->ik_bahi = addr >> 17; 41630286Ssam ik->ik_balo = (addr >> 1) & 0xffff; 41730286Ssam ik->ik_wc = ((bc + 1) >> 1) - 1; /* round & convert */ 41830286Ssam ik->ik_pulse = IKPULSE_RATTF|IKPULSE_RDMAF; 41930286Ssam sc->is_timeout = iktimeout; 42030286Ssam ik->ik_csr = IKCSR_IENA|IKCSR_GO|csr; 42130286Ssam return; 42230222Ssam bad: 42330286Ssam bp->b_flags |= B_ERROR; 42430286Ssam dp->b_actf = bp->av_forw; /* remove from queue */ 42530286Ssam biodone(bp); 42630286Ssam goto loop; 42730222Ssam } 42830222Ssam 42930222Ssam #define FETCHWORD(i) { \ 43030286Ssam v = dioread(ik); \ 43130286Ssam if (v == -1) { \ 43230286Ssam sc->is_error = PSERROR_NAMETIMO; \ 43330286Ssam goto bad; \ 43430286Ssam } \ 43530286Ssam sc->is_nameaddr.w[i] = v; \ 43630222Ssam } 43730222Ssam 43830222Ssam /* 43930222Ssam * Process a device interrupt. 44030222Ssam */ 44130222Ssam ikintr(ikon) 44230286Ssam int ikon; 44330222Ssam { 44430286Ssam register struct ikdevice *ik; 44530286Ssam register struct buf *bp, *dp; 44630286Ssam struct ik_softc *sc; 44730286Ssam register u_short data; 44830294Ssam int v; 44930222Ssam 45030286Ssam /* should go by controller, but for now... */ 45130286Ssam if (ikinfo[ikon] == 0) 45230286Ssam return; 45330286Ssam ik = (struct ikdevice *)ikinfo[ikon]->ui_addr; 45430286Ssam /* 45530286Ssam * Discard all non-attention interrupts. The 45630286Ssam * interrupts we're throwing away should all be 45730286Ssam * associated with DMA completion. 45830286Ssam */ 45930286Ssam data = ik->ik_data; 46030286Ssam if ((ik->ik_csr&(IKCSR_ATTF|IKCSR_STATC)) != IKCSR_ATTF) { 46130286Ssam ik->ik_pulse = IKPULSE_RATTF|IKPULSE_RDMAF|IKPULSE_SIENA; 46230286Ssam return; 46330286Ssam } 46430286Ssam /* 46530286Ssam * Fetch attention code immediately. 46630286Ssam */ 46730286Ssam ik->ik_csr = IKCSR_RATTF|IKCSR_RDMAF|IKCSR_FNC1; 46830286Ssam ik->ik_pulse = IKPULSE_FNC2; 46930286Ssam /* 47030286Ssam * Get device and block structures, and a pointer 47130286Ssam * to the vba_device for the device. We receive an 47230286Ssam * unsolicited interrupt whenever the PS300 is power 47330286Ssam * cycled (so ignore it in that case). 47430286Ssam */ 47530286Ssam dp = &iktab[ikon]; 47630286Ssam if ((bp = dp->b_actf) == NULL) { 47730286Ssam if (PS_CODE(data) != PS_RESET) /* power failure */ 47830286Ssam log(LOG_WARNING, "ik%d: spurious interrupt, code %x\n", 47930286Ssam ikon, data); 48030286Ssam goto enable; 48130286Ssam } 48230286Ssam sc = &ik_softc[IKUNIT(bp->b_dev)]; 48330286Ssam sc->is_timeout = 0; /* disable timer */ 48430286Ssam switch (PS_CODE(data)) { 48530222Ssam 48630286Ssam case PS_LOOKUP: /* name lookup */ 48730286Ssam if (data == PS_LOOKUP) { /* dma name */ 48830286Ssam bp->b_command = PS_DMAOUT; 48930286Ssam goto opcont; 49030286Ssam } 49130286Ssam if (data == PS_DMAOK(PS_LOOKUP)) { 49230286Ssam /* reenable interrupt and wait for address */ 49330286Ssam sc->is_timeout = iktimeout; 49430286Ssam goto enable; 49530286Ssam } 49630286Ssam /* 49730286Ssam * Address should be present, extract it one 49830286Ssam * word at a time from the PS300 (yech). 49930286Ssam */ 50030286Ssam if (data != PS_ADROK(PS_LOOKUP)) 50130286Ssam goto bad; 50230286Ssam FETCHWORD(0); 50330286Ssam FETCHWORD(1); 50430286Ssam goto opdone; 50530222Ssam 50630286Ssam case PS_WRPHY_SYNC: /* physical i/o write w/ sync */ 50730286Ssam if (data == PS_WRPHY_SYNC) { /* start dma transfer */ 50830286Ssam bp->b_command = PS_DMAOUT; 50930286Ssam goto opcont; 51030286Ssam } 51130286Ssam if (data != PS_DMAOK(PS_WRPHY_SYNC)) 51230286Ssam goto bad; 51330286Ssam goto opdone; 51430222Ssam 51530286Ssam case PS_WRPHY: /* physical i/o write */ 51630286Ssam if (data == PS_WRPHY) { /* start dma transfer */ 51730286Ssam bp->b_command = PS_DMAOUT; 51830286Ssam goto opcont; 51930286Ssam } 52030286Ssam if (data != PS_DMAOK(PS_WRPHY)) 52130286Ssam goto bad; 52230286Ssam goto opdone; 52330222Ssam 52430286Ssam case PS_ATTACH: /* attach unit */ 52530286Ssam case PS_DETACH: /* detach unit */ 52630286Ssam case PS_ABORT: /* abort code from ps300 */ 52730286Ssam if (data != bp->b_command) 52830286Ssam goto bad; 52930286Ssam goto opdone; 53030222Ssam 53130286Ssam case PS_RDPHY: /* physical i/o read */ 53230286Ssam if (data == PS_RDPHY) { /* dma address list */ 53330286Ssam bp->b_command = PS_DMAOUT; 53430286Ssam goto opcont; 53530286Ssam } 53630286Ssam if (data == PS_ADROK(PS_RDPHY)) { 53730286Ssam /* collect read byte count and start dma */ 53830286Ssam bp->b_bcount = dioread(ik); 53930286Ssam if (bp->b_bcount == -1) 54030286Ssam goto bad; 54130286Ssam bp->b_command = PS_DMAIN; 54230286Ssam goto opcont; 54330286Ssam } 54430286Ssam if (data == PS_DMAOK(PS_RDPHY)) 54530286Ssam goto opdone; 54630286Ssam goto bad; 54730286Ssam } 54830222Ssam bad: 54930286Ssam sc->is_error = data; 55030286Ssam bp->b_flags |= B_ERROR; 55130222Ssam opdone: 55230286Ssam dp->b_actf = bp->av_forw; /* remove from queue */ 55330286Ssam biodone(bp); 55430222Ssam opcont: 55530286Ssam ikstart(dp); 55630222Ssam enable: 55730286Ssam ik->ik_pulse = IKPULSE_SIENA; /* explicitly reenable */ 55830222Ssam } 55930222Ssam 56030222Ssam /* 56130222Ssam * Watchdog timer. 56230222Ssam */ 56330222Ssam iktimer(unit) 56430286Ssam int unit; 56530222Ssam { 56630286Ssam register struct ik_softc *sc = &ik_softc[unit]; 56730222Ssam 56830286Ssam if (sc->is_timeout && --sc->is_timeout == 0) { 56930286Ssam register struct buf *dp, *bp; 57030286Ssam int s; 57130222Ssam 57230286Ssam log(LOG_ERR, "ik%d: timeout\n", unit); 57330286Ssam s = splik(); 57430286Ssam /* should abort current command */ 57530286Ssam dp = &iktab[unit]; 57630286Ssam if (bp = dp->b_actf) { 57730286Ssam sc->is_error = PSERROR_CMDTIMO; 57830286Ssam bp->b_flags |= B_ERROR; 57930286Ssam dp->b_actf = bp->av_forw; /* remove from queue */ 58030286Ssam biodone(bp); 58130286Ssam ikstart(dp); 58230286Ssam } 58330286Ssam splx(s); 58430286Ssam } 58530294Ssam timeout(iktimer, (caddr_t)unit, hz); 58630222Ssam } 58730222Ssam 58830222Ssam /* 58930222Ssam * Handshake read from DR300. 59030222Ssam */ 59130222Ssam dioread(ik) 59230286Ssam register struct ikdevice *ik; 59330222Ssam { 59430294Ssam register int t; 59530286Ssam u_short data; 59630222Ssam 59730294Ssam for (t = ikdiotimo; t > 0; t--) 59830286Ssam if ((ik->ik_csr&(IKCSR_ATTF|IKCSR_STATC)) == IKCSR_ATTF) { 59930286Ssam data = ik->ik_data; 60030286Ssam ik->ik_csr = IKCSR_RATTF|IKCSR_RDMAF|IKCSR_FNC1; 60130286Ssam ik->ik_pulse = IKPULSE_FNC2; 60230286Ssam return (data); 60330286Ssam } 60430286Ssam return (-1); 60530222Ssam } 60630222Ssam 60730222Ssam /* 60830222Ssam * Handshake write to DR300. 60930222Ssam * 61030222Ssam * Interrupts are enabled before completing the work 61130222Ssam * so the caller should either be at splik or be 61230222Ssam * prepared to take the interrupt immediately. 61330222Ssam */ 61430222Ssam diowrite(ik, v) 61530286Ssam register struct ikdevice *ik; 61630286Ssam u_short v; 61730222Ssam { 61830294Ssam register int t; 61930286Ssam register u_short csr; 62030222Ssam 62130222Ssam top: 62230286Ssam /* 62330286Ssam * Deposit data and generate dr300 attention 62430286Ssam */ 62530286Ssam ik->ik_data = v; 62630286Ssam ik->ik_csr = IKCSR_RDMAF|IKCSR_RATTF; 62730286Ssam ik->ik_pulse = IKPULSE_FNC2; 62830294Ssam for (t = ikdiotimo; t > 0; t--) { 62930286Ssam csr = ik->ik_csr; 63030286Ssam #define IKCSR_DONE (IKCSR_STATA|IKCSR_STATC) 63130286Ssam if ((csr&IKCSR_DONE) == IKCSR_DONE) { 63230286Ssam /* 63330286Ssam * Done, complete handshake by notifying dr300. 63430286Ssam */ 63530286Ssam ik->ik_csr = IKCSR_IENA; /* ~IKCSR_FNC1 */ 63630286Ssam ik->ik_pulse = IKPULSE_FNC2; 63730286Ssam return (0); 63830286Ssam } 63930286Ssam /* beware of potential deadlock with dioread */ 64030286Ssam if ((csr&(IKCSR_ATTF|IKCSR_STATC)) == IKCSR_ATTF) 64130286Ssam goto top; 64230286Ssam } 64330286Ssam ik->ik_csr = IKCSR_IENA; 64430286Ssam return (PSERROR_DIOTIMO); 64530222Ssam } 64630222Ssam 64730222Ssam /*ARGSUSED*/ 64830222Ssam ikioctl(dev, cmd, data, flag) 64930286Ssam dev_t dev; 65030286Ssam int cmd; 65130286Ssam caddr_t data; 65230286Ssam int flag; 65330222Ssam { 65430286Ssam int error = 0, unit = IKUNIT(dev), s; 65530286Ssam register struct ik_softc *sc = &ik_softc[unit]; 65630222Ssam 65730286Ssam switch (cmd) { 65830222Ssam 65930286Ssam case PSIOGETERROR: /* get error code for last operation */ 66030286Ssam *(int *)data = sc->is_error; 66130286Ssam break; 66230222Ssam 66330286Ssam case PSIOLOOKUP: { /* PS300 name lookup */ 66430286Ssam register struct pslookup *lp = (struct pslookup *)data; 66530286Ssam register struct buf *bp; 66630222Ssam 66730286Ssam if (lp->pl_len > PS_MAXNAMELEN) 66830286Ssam return (EINVAL); 66930286Ssam bp = &rikbuf[unit]; 67030286Ssam s = splbio(); 67130286Ssam while (bp->b_flags&B_BUSY) { 67230286Ssam bp->b_flags |= B_WANTED; 67330286Ssam sleep((caddr_t)bp, PRIBIO+1); 67430286Ssam } 67530286Ssam splx(s); 67630286Ssam bp->b_flags = B_BUSY | B_WRITE; 677*34506Skarels error = copyin(lp->pl_name, (caddr_t)sc->is_buf, 678*34506Skarels (unsigned)lp->pl_len); 67930286Ssam if (error == 0) { 68030286Ssam if (lp->pl_len&1) 68130286Ssam sc->is_buf[lp->pl_len] = '\0'; 68230286Ssam error = ikcommand(dev, PS_LOOKUP, lp->pl_len); 68330286Ssam } 68430286Ssam s = splbio(); 68530286Ssam if (bp->b_flags&B_WANTED) 68630286Ssam wakeup((caddr_t)bp); 68730286Ssam splx(s); 68830286Ssam bp->b_flags &= ~(B_BUSY|B_WANTED); 68930286Ssam lp->pl_addr = sc->is_nameaddr.l; 69030286Ssam break; 69130286Ssam } 69230286Ssam default: 69330286Ssam return (ENOTTY); 69430286Ssam } 69530286Ssam return (error); 69630222Ssam } 69730222Ssam #endif 698