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first (non-working) version
authorBill Joy <wnj@ucbvax.Berkeley.EDU>
Sat, 7 Mar 1981 03:31:17 +0000 (19:31 -0800)
committerBill Joy <wnj@ucbvax.Berkeley.EDU>
Sat, 7 Mar 1981 03:31:17 +0000 (19:31 -0800)
SCCS-vsn: sys/vax/mba/ht.c 4.5

usr/src/sys/vax/mba/ht.c patch | blob | blame | history

diff --git a/usr/src/sys/vax/mba/ht.c b/usr/src/sys/vax/mba/ht.c
index 912e3a2..1ec4bbd 100644 (file)
--- a/usr/src/sys/vax/mba/ht.c
+++ b/usr/src/sys/vax/mba/ht.c
@@ -1,11 +1,8 @@
-/*     ht.c    4.4     %G%     */
-
 #include "ht.h"
 #if NHT > 0
 /*
 #include "ht.h"
 #if NHT > 0
 /*
- * TJU16 tape driver
+ * TM03/TU?? tape driver
  */
  */
-
 #include "../h/param.h"
 #include "../h/systm.h"
 #include "../h/buf.h"
 #include "../h/param.h"
 #include "../h/systm.h"
 #include "../h/buf.h"
@@ -16,402 +13,546 @@
 #include "../h/map.h"
 #include "../h/pte.h"
 #include "../h/mba.h"
 #include "../h/map.h"
 #include "../h/pte.h"
 #include "../h/mba.h"
-#include "../h/vm.h"
+#include "../h/mtio.h"
+#include "../h/ioctl.h"
 #include "../h/cmap.h"
 
 #include "../h/cmap.h"
 
-struct device
-{
-       int     htcs1;
-       int     htds;
-       int     hter;
-       int     htmr;
-       int     htas;
-       int     htfc;
-       int     htdt;
-       int     htck;
-       int     htsn;
-       int     httc;
-};
-
-struct buf     httab;
-struct buf     rhtbuf;
-struct buf     chtbuf;
-
-#define        INF     1000000
-
-char   h_openf[NHT];
-daddr_t        h_blkno[NHT];
-char   h_flags[NHT];
-daddr_t        h_nxrec[NHT];
-
-#define        GO      01
-#define        WCOM    060
-#define        RCOM    070
-#define        NOP     0
-#define        WEOF    026
-#define        SFORW   030
-#define        SREV    032
-#define        ERASE   024
-#define        REW     06
-#define        DCLR    010
-#define        P800    01700           /* 800 + pdp11 mode */
-#define        P1600   02300           /* 1600 + pdp11 mode */
-#define        IENABLE 0100
-#define        RDY     0200
-#define        TM      04
-#define        DRY     0200
-#define        EOT     02000
-#define        CS      02000
-#define        COR     0100000
-#define        PES     040
-#define        WRL     04000
-#define        MOL     010000
-#define        ERR     040000
-#define        FCE     01000
-#define        TRE     040000
-#define        HARD    064023  /* UNS|OPI|NEF|FMT|RMR|ILR|ILF */
+#include "../h/htreg.h"
+
+struct buf     rhtbuf[NHT];
+struct buf     chtbuf[NHT];
+
+short  httypes[] =
+       { MBDT_TE16, MBDT_TU45, MBDT_TU77, 0 };
+struct mba_info *htinfo[NHT];
+int    htdkinit(), htustart(), htndtint(), htdtint();
+struct mba_driver htdriver =
+       { htdkinit, htustart, 0, htdtint, htndtint, httypes, htinfo };
+
+#define MASKREG(r)     ((r) & 0xffff)
+
+/* bits in minor device */
+#define HTUNIT(dev)    (minor(dev)&03)
+#define        H_NOREWIND      04
+#define        H_1600BPI       08
 
 
+#define        INF     (daddr_t)1000000L       /* a block number that wont exist */
+
+struct ht_softc {
+       char    sc_openf;
+       char    sc_flags;
+       daddr_t sc_blkno;
+       daddr_t sc_nxrec;
+       u_short sc_erreg;
+       u_short sc_dsreg;
+       short   sc_resid;
+       short   sc_dens;
+} ht_softc[NHT];
+
+/*
+ * States for b_active for device.
+ */
 #define        SIO     1
 #define        SSFOR   2
 #define        SSREV   3
 #define        SRETRY  4
 #define        SCOM    5
 #define        SOK     6
 #define        SIO     1
 #define        SSFOR   2
 #define        SSREV   3
 #define        SRETRY  4
 #define        SCOM    5
 #define        SOK     6
+#define        SEOF    7
+
+/*
+ * Bits for sc_flags.
+ */
+#define        H_WRITTEN 1     /* last operation was a write */
+#define H_ERASED  2    /* last write retry was an erase gap */
+#define H_REWIND  4    /* last unit start was a rewind */
 
 
-#define        H_WRITTEN 1
+/*ARGSUSED*/
+htdkinit(mi)
+       struct mba_info *mi;
+{
+
+}
 
 htopen(dev, flag)
 
 htopen(dev, flag)
+       dev_t dev;
+       int flag;
 {
 {
-       register unit, ds;
+       register int unit;
+       register struct mba_info *mi;
+       register struct ht_softc *sc;
 
 
-       if ((mbaact&(1<<HTMBANUM)) == 0)
-               mbainit(HTMBANUM);
-       httab.b_flags |= B_TAPE;
-       unit = minor(dev) & 03;
-       if (unit >= NHT || h_openf[unit]) {
+       unit = HTUNIT(dev);
+       if (unit >= NHT || (sc = &ht_softc[unit])->sc_openf ||
+           (mi = htinfo[unit]) == 0 || mi->mi_alive == 0) {
                u.u_error = ENXIO;
                return;
        }
                u.u_error = ENXIO;
                return;
        }
-       h_blkno[unit] = 0;
-       h_nxrec[unit] = INF;
-       h_flags[unit] = 0;
-       ds = hcommand(dev, NOP);
-       if ((ds&MOL)==0 || (flag && (ds&WRL)))
-               u.u_error = ENXIO;
-       if (u.u_error==0)
-               h_openf[unit]++;
+       /*
+        * The NOP below serves two purposes:
+        * 1. To get a recent copy of the status registers.
+        * 2. To ensure that any outstanding rewinds are truly finished
+        *      so that the test for BOT is valid.
+        */
+       htcommand(dev, HT_SENSE, 1);
+       if ((sc->sc_dsreg & HTDS_MOL) == 0 || 
+          (flag & (FREAD|FWRITE)) == FWRITE && sc->sc_dsreg&HTDS_WRL) {
+               u.u_error = EIO;
+               return;
+       }
+       sc->sc_dens =
+           ((minor(dev)&H_1600BPI)?HTTC_1600BPI:HTTC_800BPI)|HTTC_PDP11|unit;
+       sc->sc_openf = 1;
+       sc->sc_blkno = (daddr_t)0;
+       sc->sc_nxrec = INF;
+       sc->sc_flags = 0;
 }
 
 htclose(dev, flag)
 }
 
 htclose(dev, flag)
+       register dev_t dev;
+       register flag;
 {
 {
-       register int unit;
+       register struct ht_softc *sc = &ht_softc[HTUNIT(dev)];
 
 
-       unit = minor(dev) & 03;
-       if (flag == FWRITE || ((flag&FWRITE) && (h_flags[unit]&H_WRITTEN))) {
-               (void) hcommand(dev, WEOF);
-               (void) hcommand(dev, WEOF);
-               (void) hcommand(dev, SREV);
+       if (flag == FWRITE || ((flag&FWRITE) && (sc->sc_flags&H_WRITTEN))) {
+               htcommand(dev, HT_WEOF, 1);
+               htcommand(dev, HT_WEOF, 1);
+               htcommand(dev, HT_SREV, 1);
        }
        }
-       if((minor(dev)&4) == 0) /* no 4 -> rewind */
-               (void) hcommand(dev, REW);
-       h_openf[unit] = 0;
+       if ((minor(dev)&H_NOREWIND) == 0)
+               /* 0 as third arg means don't wait */
+               htcommand(dev, HT_REW, 0);
+       sc->sc_openf = 0;
 }
 
 }
 
-hcommand(dev, com)
+/*
+ * Do a non-data-transfer command.
+ *
+ * N.B.: Count should be zero ONLY for rewind during close.
+ */
+htcommand(dev, com, count)
+       dev_t dev;
+       int com, count;
 {
        register struct buf *bp;
 
 {
        register struct buf *bp;
 
-       bp = &chtbuf;
+       bp = &chtbuf[HTUNIT(dev)];
        (void) spl5();
        (void) spl5();
-       while(bp->b_flags&B_BUSY) {
+       /*
+        * The B_DONE test is to allow the rewind on close not to wait at
+        * all.  We just must make sure that it was an asynchronous rewind,
+        * otherwise if it isn't we might wake up before the process
+        * waiting for the command (we are waiting for the buffer here).
+        */
+       while (bp->b_flags&B_BUSY) {
+               if (bp->b_flags&B_DONE && bp->b_repcnt == 0)
+                       break;
                bp->b_flags |= B_WANTED;
                sleep((caddr_t)bp, PRIBIO);
        }
                bp->b_flags |= B_WANTED;
                sleep((caddr_t)bp, PRIBIO);
        }
+       bp->b_flags = B_BUSY;
        (void) spl0();
        bp->b_dev = dev;
        (void) spl0();
        bp->b_dev = dev;
-       bp->b_resid = com;
+       bp->b_command = com;
+       bp->b_repcnt = count;
        bp->b_blkno = 0;
        bp->b_blkno = 0;
-       bp->b_flags = B_BUSY|B_READ;
        htstrategy(bp);
        htstrategy(bp);
+       if (count == 0)
+               return;
        iowait(bp);
        iowait(bp);
-       if(bp->b_flags&B_WANTED)
+       if (bp->b_flags&B_WANTED)
                wakeup((caddr_t)bp);
                wakeup((caddr_t)bp);
-       bp->b_flags = 0;
-       return(bp->b_resid);
+       bp->b_flags &= B_ERROR;
 }
 
 htstrategy(bp)
 }
 
 htstrategy(bp)
-register struct buf *bp;
+       register struct buf *bp;
 {
 {
-       register daddr_t *p;
+       register int unit = HTUNIT(bp->b_dev);
+       register struct mba_info *mi;
+       register struct buf *dp;
+       register struct ht_softc *sc = &ht_softc[unit];
 
 
-       if(bp != &chtbuf) {
-               p = &h_nxrec[minor(bp->b_dev)&03];
-               if(dbtofsb(bp->b_blkno) > *p) {
-                       bp->b_flags |= B_ERROR;
-                       bp->b_error = ENXIO;
-                       iodone(bp);
-                       return;
-               }
-               if(dbtofsb(bp->b_blkno) == *p && bp->b_flags&B_READ) {
-                       bp->b_resid = bp->b_bcount;
-                       clrbuf(bp);
-                       iodone(bp);
-                       return;
-               }
-               if ((bp->b_flags&B_READ)==0) {
-                       *p = dbtofsb(bp->b_blkno) + 1;
-                       h_flags[minor(bp->b_dev)&03] |=  H_WRITTEN;
-               }
-       }
        bp->av_forw = NULL;
        bp->av_forw = NULL;
+       dp = &mi->mi_tab;
        (void) spl5();
        (void) spl5();
-       if (httab.b_actf == NULL)
-               httab.b_actf = bp;
+       if (dp->b_actf == NULL)
+               dp->b_actf = bp;
        else
        else
-               httab.b_actl->av_forw = bp;
-       httab.b_actl = bp;
-       if (httab.b_active==0)
-               htstart();
+               dp->b_actl->av_forw = bp;
+       dp->b_actl = bp;
+       if (dp->b_active == 0)
+               mbustart(mi);
        (void) spl0();
 }
 
        (void) spl0();
 }
 
-htstart()
+htustart(mi)
+       register struct mba_info *mi;
 {
 {
-       register struct buf *bp;
-       register unit, den;
+       register struct htdevice *htaddr =
+           (struct htdevice *)mi->mi_drv;
+       register struct buf *bp = mi->mi_tab.b_actf;
+       int unit = HTUNIT(bp->b_dev);
+       register struct ht_softc *sc = &ht_softc[unit];
        daddr_t blkno;
        daddr_t blkno;
-       register struct device *htp = mbadev(HTMBA,0);
 
 
-    loop:
-       if ((bp = httab.b_actf) == NULL)
-               return;
-       unit = minor(bp->b_dev);
-       den = P800 | (unit&03);
-       if(unit >= 8)
-               den = P1600 | (unit&03);
-       if((htp->httc&03777) != den)
-               htp->httc = den;
-       unit &= 03;
-       blkno = h_blkno[unit];
-       if (bp == &chtbuf) {
-               if (bp->b_resid==NOP) {
-                       bp->b_resid = htp->htds & 0xffff;
+       htaddr->httc = sc->sc_dens;
+       sc->sc_dsreg = htaddr->htds;
+       sc->sc_erreg = htaddr->hter;
+       sc->sc_resid = htaddr->htfc;
+       sc->sc_flags &= ~(H_WRITTEN|H_REWIND);
+       if ((htaddr->htdt & HTDT_SPR) == 0 || (htaddr->htds & HTDS_MOL) == 0)
+               if (sc->sc_openf > 0)
+                       sc->sc_openf = -1;
+       if (sc->sc_openf < 0) {
+               bp->b_flags |= B_ERROR;
+               return (MBU_NEXT);
+       }
+       if (bp != &chtbuf[unit]) {
+               if (dbtofsb(bp->b_blkno) > sc->sc_nxrec) {
+                       bp->b_flags |= B_ERROR;
+                       bp->b_error = ENXIO;
+                       goto next;
+               } else if (dbtofsb(bp->b_blkno) == sc->sc_nxrec &&
+                   bp->b_flags&B_READ) {
+                       bp->b_resid = bp->b_bcount;
+                       clrbuf(bp);
                        goto next;
                        goto next;
+               } else if ((bp->b_flags&B_READ)==0)
+                       sc->sc_nxrec = dbtofsb(bp->b_blkno) + 1;
+       } else {
+               if (bp->b_command == HT_SENSE)
+                       return (MBU_NEXT);
+               if (bp->b_command == HT_REW)
+                       sc->sc_flags |= H_REWIND;
+               else
+                       htaddr->htfc = -bp->b_bcount;
+               htaddr->htcs1 = bp->b_command|HT_GO;
+               return (MBU_STARTED);
+       }
+       if ((blkno = sc->sc_blkno) == dbtofsb(bp->b_blkno)) {
+               htaddr->htfc = -bp->b_bcount;
+               if ((bp->b_flags&B_READ) == 0) {
+                       if (mi->mi_tab.b_errcnt)
+                               if (sc->sc_flags & H_ERASED)
+                                       sc->sc_flags &= ~H_ERASED;
+                               else {
+                                       sc->sc_flags |= H_ERASED;
+                                       htaddr->htcs1 = HT_ERASE | HT_GO;
+                                       return (MBU_STARTED);
+                               }
+                       if (htaddr->htds & HTDS_EOT) {
+                               bp->b_resid = bp->b_bcount;
+                               return (MBU_NEXT);
+                       }
                }
                }
-               httab.b_active = SCOM;
-               htp->htfc = 0;
-               htp->htcs1 = bp->b_resid|GO;
-               return;
+               return (MBU_DODATA);
        }
        }
-       if (h_openf[unit] < 0 || dbtofsb(bp->b_blkno) > h_nxrec[unit])
-               goto abort;
-       if (blkno == dbtofsb(bp->b_blkno)) {
-               httab.b_active = SIO;
-               htp->htfc = -bp->b_bcount;
-               mbastart(bp, (int *)htp);
+       if (blkno < dbtofsb(bp->b_blkno)) {
+               htaddr->htfc = blkno - dbtofsb(bp->b_blkno);
+               htaddr->htcs1 = HT_SFORW|HT_GO;
        } else {
        } else {
-               if (blkno < dbtofsb(bp->b_blkno)) {
-                       httab.b_active = SSFOR;
-                       htp->htfc = blkno - dbtofsb(bp->b_blkno);
-                       htp->htcs1 = SFORW|GO;
-               } else {
-                       httab.b_active = SSREV;
-                       htp->htfc = dbtofsb(bp->b_blkno) - blkno;
-                       htp->htcs1 = SREV|GO;
-               }
+               htaddr->htfc = dbtofsb(bp->b_blkno) - blkno;
+               htaddr->htcs1 = HT_SREV|HT_GO;
        }
        }
-       return;
-
-    abort:
-       bp->b_flags |= B_ERROR;
-
-    next:
-       httab.b_actf = bp->av_forw;
+       return (MBU_STARTED);
+next:
        iodone(bp);
        iodone(bp);
-       goto loop;
+       return (MBU_NEXT);
 }
 
 }
 
+/*
+ * data transfer interrupt - must be read or write
+ */
 /*ARGSUSED*/
 /*ARGSUSED*/
-htintr(mbastat, as)
+htdtint(mi, mbasr)
+       register struct mba_info *mi;
+       int mbasr;
 {
 {
-       register struct buf *bp;
-       register int unit, state;
-       int err;
-       register struct device *htp = mbadev(HTMBA,0);
+       register struct htdevice *htaddr = (struct htdevice *)mi->mi_drv;
+       register struct buf *bp = mi->mi_tab.b_actf;
+       register struct ht_softc *sc;
+       int ds, er;
 
 
-       if ((bp = httab.b_actf)==NULL)
+       if (bp == NULL)
                return;
                return;
-       unit = minor(bp->b_dev) & 03;
-       state = httab.b_active;
-       httab.b_active = 0;
-       if (htp->htds&(ERR|EOT|TM) || mbastat & MBAEBITS) {
-               err = htp->hter & 0xffff;
-               if ((mbastat & MBAEBITS) || (err&HARD))
-                       state = 0;
-               if (bp == &rhtbuf)
-                       err &= ~FCE;
-               if ((bp->b_flags&B_READ) && (htp->htds&PES))
-                       err &= ~(CS|COR);
-               if(htp->htds&EOT || (htp->htds&MOL)==0) {
-                       if(h_openf[unit])
-                               h_openf[unit] = -1;
-               }
-               else if(htp->htds&TM) {
-                       htp->htfc = 0;
-                       h_nxrec[unit] = dbtofsb(bp->b_blkno);
-                       state = SOK;
-               }
-               else if(state && err == 0)
-                       state = SOK;
-               if(httab.b_errcnt > 4)
-                       deverror(bp, htp->hter, mbastat);
-               HTMBA->mba_cr &= ~MBAIE;
-               htp->htcs1 = DCLR|GO;
-               HTMBA->mba_cr |= MBAIE;
-               if (state==SIO && ++httab.b_errcnt < 10) {
-                       httab.b_active = SRETRY;
-                       h_blkno[unit]++;
-                       htp->htfc = -1;
-                       htp->htcs1 = SREV|GO;
-                       return;
-               }
-               if (state!=SOK) {
+       sc = &ht_softc[HTUNIT(bp->b_dev)];
+       ds = sc->sc_dsreg = MASKREG(htaddr->htds);
+       er = sc->sc_erreg = MASKREG(htaddr->hter);
+       sc->sc_resid = MASKREG(htaddr->htfc);
+       sc->sc_blkno++;
+       if((bp->b_flags & B_READ) == 0)
+               sc->sc_flags |= H_WRITTEN;
+       if ((ds&(HTDS_ERR|HTDS_MOL)) != HTDS_MOL ||
+           mbasr & MBAEBITS) {
+               htaddr->htcs1 = HT_DCLR|HT_GO;
+               if (bp == &rhtbuf[HTUNIT(bp->b_dev)])
+                       er &= ~HTER_FCE;
+               if (bp->b_flags & B_READ && ds & HTDS_PES)
+                       er &= ~(HTER_CSITM|HTER_CORCRC);
+               if (er&HTER_HARD ||
+                   mbasr&MBAEBITS || (ds&HTDS_MOL) == 0 ||
+                   sc->sc_erreg && ++mi->mi_tab.b_errcnt >= 7) {
+                       if ((ds & HTDS_MOL) == 0 && sc->sc_openf > 0)
+                               sc->sc_openf = -1;
+                       printf("ht%d: hard error bn%d mbasr=%b er=%b\n",
+                           HTUNIT(bp->b_dev), bp->b_blkno,
+                           mbasr, mbasr_bits,
+                           MASKREG(htaddr->hter), HTER_BITS);
                        bp->b_flags |= B_ERROR;
                        bp->b_flags |= B_ERROR;
-                       state = SIO;
-               }
-       } else if (htp->htcs1 < 0) {    /* SC */
-               if(htp->htds & ERR) {
-                       HTMBA->mba_cr &= ~MBAIE;
-                       htp->htcs1 = DCLR|GO;
-                       HTMBA->mba_cr |= MBAIE;
+                       return (MBD_DONE);
                }
                }
+               if (er)
+                       return (MBD_RETRY);
        }
        }
-       switch(state) {
-       case SIO:
-       case SOK:
-               h_blkno[unit]++;
-
-       case SCOM:
-               httab.b_errcnt = 0;
-               httab.b_actf = bp->av_forw;
-               bp->b_resid = - (htp->htfc & 0xffff);
-               if (bp->b_flags & B_READ)
-                       bp->b_resid += bp->b_bcount;
-               iodone(bp);
-               break;
-
-       case SRETRY:
-               if((bp->b_flags&B_READ)==0) {
-                       httab.b_active = SSFOR;
-                       htp->htcs1 = ERASE|GO;
-                       return;
-               }
+       bp->b_resid = 0;
+       if (bp->b_flags & B_READ)
+               if (ds&HTDS_TM) {               /* must be a read, right? */
+                       bp->b_resid = bp->b_bcount;
+                       sc->sc_nxrec = dbtofsb(bp->b_blkno);
+               } else if(bp->b_bcount > MASKREG(htaddr->htfc))
+                       bp->b_resid = bp->b_bcount - MASKREG(htaddr->htfc);
+       return (MBD_DONE);
+}
 
 
-       case SSFOR:
-       case SSREV:
-#define blk dbtofsb(bp->b_blkno)
-               if(htp->htds & TM) {
-                       if(state == SSREV) {
-                               h_nxrec[unit] = blk - (htp->htfc&0xffff);
-                               h_blkno[unit] = h_nxrec[unit];
-                       } else {
-                               h_nxrec[unit] = blk + (htp->htfc&0xffff) - 1;
-                               h_blkno[unit] = blk + (htp->htfc & 0xffff);
-                       }
-               } else
-                       h_blkno[unit] = blk;
-               break;
-#undef blk
+/*
+ * non-data-transfer interrupt
+ */
+htndtint(mi)
+       register struct mba_info *mi;
+{
+       register struct htdevice *htaddr = (struct htdevice *)mi->mi_drv;
+       register struct buf *bp = mi->mi_tab.b_actf;
+       register struct ht_softc *sc;
+       int er, ds, fc;
 
 
-       default:
+       if (bp == NULL)
                return;
                return;
+       sc = &ht_softc[HTUNIT(bp->b_dev)];
+       ds = sc->sc_dsreg = MASKREG(htaddr->htds);
+       er = sc->sc_erreg = MASKREG(htaddr->hter);
+       sc->sc_resid = MASKREG(htaddr->htfc);
+       if (sc->sc_erreg)
+               htaddr->htcs1 = HT_DCLR|HT_GO;
+       if (bp == &chtbuf[HTUNIT(bp->b_dev)]) {
+               if (bp->b_command == HT_REWOFFL)
+                       /* offline is on purpose; don't do anything special */
+                       ds |= HTDS_MOL; 
+               else if (bp->b_resid == HT_SREV &&
+                   er == (HTER_NEF|HTER_FCE) &&
+                   ds&HTDS_BOT && bp->b_bcount == INF)
+                       er &= ~HTER_NEF;
+               er &= ~HTER_FCE;
+               if (er == 0)
+                       ds &= ~HTDS_ERR;
+       }
+       if ((ds & (HTDS_ERR|HTDS_MOL)) != HTDS_MOL) {
+               if ((ds & HTDS_MOL) == 0 && sc->sc_openf > 0)
+                       sc->sc_openf = -1;
+               printf("ht%d: hard error bn%d er=%b ds=%b\n",
+                   HTUNIT(bp->b_dev), bp->b_blkno,
+                   sc->sc_erreg, HTER_BITS, sc->sc_dsreg, HTDS_BITS);
+               bp->b_flags |= B_ERROR;
+               return (MBN_DONE);
        }
        }
-       htstart();
+       if (bp == &chtbuf[HTUNIT(bp->b_dev)]) {
+               if (sc->sc_flags & H_REWIND)
+                       return (ds & HTDS_BOT ? MBN_DONE : MBN_RETRY);
+               bp->b_resid = -sc->sc_resid;
+               return (MBN_DONE);
+       }
+       if (ds & HTDS_TM)
+               if (sc->sc_blkno > dbtofsb(bp->b_blkno)) {/* reversing */
+                       sc->sc_nxrec = dbtofsb(bp->b_blkno) - fc;
+                       sc->sc_blkno = sc->sc_nxrec;
+               } else {                        /* spacing forward */
+                       sc->sc_blkno = dbtofsb(bp->b_blkno) + fc;
+                       sc->sc_nxrec = sc->sc_blkno - 1;
+               }
+       else
+               sc->sc_blkno = dbtofsb(bp->b_blkno);
+       return (MBN_RETRY);
 }
 
 htread(dev)
 }
 
 htread(dev)
+       dev_t dev;
 {
 {
+
        htphys(dev);
        htphys(dev);
-       physio(htstrategy, &rhtbuf, dev, B_READ, minphys);
+       if (u.u_error)
+               return;
+       physio(htstrategy, &rhtbuf[HTUNIT(dev)], dev, B_READ, minphys);
 }
 
 htwrite(dev)
 {
 }
 
 htwrite(dev)
 {
+
        htphys(dev);
        htphys(dev);
-       physio(htstrategy, &rhtbuf, dev, B_WRITE, minphys);
+       if (u.u_error)
+               return;
+       physio(htstrategy, &rhtbuf[HTUNIT(dev)], dev, B_WRITE, minphys);
 }
 
 htphys(dev)
 }
 
 htphys(dev)
+       dev_t dev;
 {
 {
-       register unit;
+       register int unit;
+       register struct ht_softc *sc;
        daddr_t a;
 
        daddr_t a;
 
-       unit = minor(dev) & 03;
-       if(unit < NHT) {
-               a = u.u_offset >> 9;
-               h_blkno[unit] = dbtofsb(a);
-               h_nxrec[unit] = dbtofsb(a)+1;
+       unit = HTUNIT(dev);
+       if (unit >= NHT) {
+               u.u_error = ENXIO;
+               return;
        }
        }
+       a = u.u_offset >> 9;
+       sc = &ht_softc[unit];
+       sc->sc_blkno = dbtofsb(a);
+       sc->sc_nxrec = dbtofsb(a)+1;
 }
 
 }
 
-#define        HTADDR  ((struct device *)(HTPHYSMBA + 0x400))
-#define        HTMAP ((struct pte *) (HTPHYSMBA + 0x800))
+/*ARGSUSED*/
+htioctl(dev, cmd, addr, flag)
+       dev_t dev;
+       int cmd;
+       caddr_t addr;
+       int flag;
+{
+       register unit = HTUNIT(dev);
+       register struct ht_softc *sc = &ht_softc[unit];
+       register struct buf *bp = &chtbuf[unit];
+       register callcount;
+       int fcount;
+       struct mtop mtop;
+       struct mtget mtget;
+       /* we depend of the values and order of the MT codes here */
+       static htops[] =
+   {HT_WEOF,HT_SFORW,HT_SREV,HT_SFORW,HT_SREV,HT_REW,HT_REWOFFL,HT_SENSE};
+
+       switch (cmd) {
+               case MTIOCTOP:  /* tape operation */
+               if (copyin((caddr_t)addr, (caddr_t)&mtop, sizeof(mtop))) {
+                       u.u_error = EFAULT;
+                       return;
+               }
+               switch(mtop.mt_op) {
+               case MTWEOF:
+                       callcount = mtop.mt_count;
+                       fcount = 1;
+                       break;
+               case MTFSF: case MTBSF:
+                       callcount = mtop.mt_count;
+                       fcount = INF;
+                       break;
+               case MTFSR: case MTBSR:
+                       callcount = 1;
+                       fcount = mtop.mt_count;
+                       break;
+               case MTREW: case MTOFFL:
+                       callcount = 1;
+                       fcount = 1;
+                       break;
+               default:
+                       u.u_error = ENXIO;
+                       return;
+               }
+               if (callcount <= 0 || fcount <= 0) {
+                       u.u_error = ENXIO;
+                       return;
+               }
+               while (--callcount >= 0) {
+                       htcommand(dev, htops[mtop.mt_op], fcount);
+                       if ((mtop.mt_op == MTFSR || mtop.mt_op == MTBSR) &&
+                           bp->b_resid) {
+                               u.u_error = EIO;
+                               break;
+                       }
+                       if ((chtbuf[HTUNIT(bp->b_dev)].b_flags&B_ERROR) ||
+                           sc->sc_dsreg&HTDS_BOT)
+                               break;
+               }
+               geterror(bp);
+               return;
+       case MTIOCGET:
+               mtget.mt_dsreg = sc->sc_dsreg;
+               mtget.mt_erreg = sc->sc_erreg;
+               mtget.mt_resid = sc->sc_resid;
+               if (copyout((caddr_t)&mtget, addr, sizeof(mtget)))
+                       u.u_error = EFAULT;
+               return;
+       default:
+               u.u_error = ENXIO;
+       }
+}
 
 #define        DBSIZE  20
 
 
 #define        DBSIZE  20
 
-twall(start, num)
-       char *start;
-       int num;
+htdump()
 {
 {
-       int blk;
-
-       HTADDR->httc = P800;    /* set 800 bpi mode */
-       HTADDR->htcs1 = DCLR | GO;
+       register struct mba_info *mi;
+       register struct mba_regs *mp;
+       register struct htdevice *htaddr;
+       int blk, num;
+       int start;
+
+       start = 0;
+       num = maxfree;
+#define        phys(a,b)               ((b)((int)(a)&0x7fffffff))
+       if (htinfo[0] == 0)
+               return (ENXIO);
+       mi = phys(htinfo[0], struct mba_info *);
+       mp = phys(mi->mi_hd, struct mba_hd *)->mh_physmba;
+#if VAX780
+       mbainit(mp);
+       htaddr = (struct htdevice *)&mp->mba_drv[mi->mi_drive];
+       htaddr->httc = HTTC_PDP11|HTTC_1600BPI;
+       htaddr->htcs1 = HT_DCLR|HT_GO;
        while (num > 0) {
                blk = num > DBSIZE ? DBSIZE : num;
        while (num > 0) {
                blk = num > DBSIZE ? DBSIZE : num;
-               twrite(start, blk);
-               start += blk*NBPG;
+               htdwrite(start, blk, htaddr, mp);
+               start += blk;
                num -= blk;
        }
                num -= blk;
        }
+       htwait(htaddr);
+       htaddr->htcs1 = HT_REW|HT_GO;
+       hteof(htaddr);
+       hteof(htaddr);
 }
 
 }
 
-twrite(buf, num)
-char *buf;
+htdwrite(dbuf, num, htaddr, mp)
+       register dbuf, num;
+       register struct htdevice *htaddr;
+       struct mba_regs *mp;
 {
 {
-       register struct pte *hpte = HTMAP;
+       register struct pte *io;
        register int i;
 
        register int i;
 
-       twait();
-       HTADDR->htfc = -(num*NBPG);
+       htwait(htaddr);
+       io = mp->mba_map;
        for (i = 0; i < num; i++)
        for (i = 0; i < num; i++)
-               *(int *)hpte++ = (btop(buf)+i) | PG_V;
-       ((struct mba_regs *)PHYSMBA1)->mba_sr = -1;
-       ((struct mba_regs *)PHYSMBA1)->mba_bcr = -(num*NBPG);
-       ((struct mba_regs *)PHYSMBA1)->mba_var = 0;
-       HTADDR->htcs1 = WCOM | GO;
+               *(int *)io++ = dbuf++ | PG_V;
+       htaddr->htfc = -(num*NBPG);
+       mp->mba_sr = -1;
+       mp->mba_bcr = -(num*NBPG);
+       mp->mba_var = 0;
+       htaddr->htcs1 = HT_WCOM|HT_GO;
 }
 
 }
 
-twait()
+htwait(htaddr)
+       struct htdevice *htaddr;
 {
        register s;
 
        do
 {
        register s;
 
        do
-               s = HTADDR->htds;
-       while ((s & RDY) == 0);
-}
-
-rewind()
-{
-
-       twait();
-       HTADDR->htcs1 = REW | GO;
+               s = htaddr->htds;
+       while ((s & HTDS_DRY) == 0);
 }
 
 }
 
-teof()
+hteof(htaddr)
+       struct htdevice *htaddr;
 {
 
 {
 
-       twait();
-       HTADDR->htcs1 = WEOF | GO;
+       htwait(htaddr);
+       htaddr->htcs1 = HT_WEOF|HT_GO;
 }
 #endif
 }
 #endif
Continuous source code history from original PDP-7 UNIX to FreeBSD 2, the first fully unencumbered FreeBSD release.