ref: ed9fdc72f519553f9c8f1f221f97bd5919847caa
dir: /sys/src/cmd/cwfs/juke.c/
/* * drive HP optical-disc jukeboxes (e.g. HP 1200EX). * used to issue SCSI commands directly to the host adapter; * now (via scsi.c) it issues them via scsi(2) using * /dev/sdXX/raw to run the robotics, and uses normal i/o * on /dev/sdXX/data to run the drives. */ #include "all.h" #include "io.h" enum { SCSInone = SCSIread, MAXDRIVE = 10, MAXSIDE = 500, /* max. disc sides */ TWORM = MINUTE(10), THYSTER = SECOND(10), Sectorsz = 512, /* usual disk sector size */ Jukemagic = 0xbabfece2, }; typedef struct Side Side; struct Side { QLock; /* protects loading/unloading */ int elem; /* element number */ int drive; /* if loaded, where */ uchar status; /* Sunload, etc */ uchar rot; /* if backside */ int ord; /* ordinal number for labeling */ Timet time; /* time since last access, to unspin */ Timet stime; /* time since last spinup, for hysteresis */ long nblock; /* number of native blocks */ long block; /* bytes per native block */ long mult; /* multiplier to get plan9 blocks */ long max; /* max size in plan9 blocks */ }; typedef struct Juke Juke; struct Juke { QLock; /* protects drive mechanism */ Side side[MAXSIDE]; int nside; /* # of storage elements (*2 if rev) */ int ndrive; /* # of transfer elements */ Device* juke; /* devworm of changer */ Device* drive[MAXDRIVE]; /* devworm for i/o */ uchar offline[MAXDRIVE]; /* drives removed from service */ int isfixedsize; /* flag: one size fits all? */ long fixedsize; /* the one size that fits all */ int probeok; /* wait for init to probe */ Scsi* robot; /* scsi(2) interface to robotics */ char* robotdir; /* /dev/sdXX name */ /* * geometry returned by mode sense. * a *0 number (such as mt0) is the `element number' of the * first element of that type (e.g., mt, or motor transport). * an n* number is the quantity of them. */ int mt0, nmt; /* motor transports (robot pickers) */ int se0, nse; /* storage elements (discs, slots) */ int ie0, nie; /* interchange elements (mailbox slots) */ int dt0, ndt; /* drives (data transfer?) */ int rot; /* if true, discs are double-sided */ ulong magic; Juke* link; }; static Juke* jukelist; enum { Sempty = 0, /* does not exist */ Sunload, /* on the shelf */ Sstart, /* loaded and spinning */ }; static int bestdrive(Juke*, int); static void element(Juke*, int); static int mmove(Juke*, int, int, int, int); static void shelves(void); static int waitready(Juke *, Device*); static int wormsense(Device*); static Side* wormunit(Device*); /* create a new label and try to write it */ static void newlabel(Device *d, Off labelblk, char *labelbuf, unsigned vord) { Label *label = (Label *)labelbuf; memset(labelbuf, 0, RBUFSIZE); label->magic = Labmagic; label->ord = vord; strncpy(label->service, service, sizeof label->service); if (!okay("write new label")) print("NOT writing new label\n"); else if (wormwrite(d, labelblk, labelbuf)) /* wormwrite will have complained in detail */ fprint(2, "can't write new label on side %d\n", vord); else if (chatty) print("wrote new label on side %d\n", vord); } /* check for label in last block. call with v qlocked. */ Side* wormlabel(Device *d, Side *v) { int vord; Off labelblk = v->max - 1; /* last block */ char labelbuf[RBUFSIZE]; Label *label = (Label *)labelbuf; Juke *w = d->private; /* wormread calls wormunit, which locks v */ vord = v->ord; qunlock(v); memset(label, 0, sizeof *label); if (wormread(d, labelblk, labelbuf)) { /* * wormread will have complained in detail about the error; * no need to repeat most of that detail. * probably an unwritten WORM-disc label; write a new one. */ fprint(2, "error reading label block of side %d\n", vord); newlabel(d, labelblk, labelbuf, vord); } else if (label->magic != Labmagic) { swab8(&label->magic); if (label->magic == Labmagic) { fprint(2, "side %d's label magic byte-swapped; filsys should be configured with xD", vord); swab2(&label->ord); /* could look for Devswab in Juke's filsys */ } else { /* * magic # is wrong in both byte orders, thus * probably the label is empty on RW media, * so create a new one and try to write it. */ fprint(2, "bad magic number in label of side %d\n", vord); newlabel(d, labelblk, labelbuf, vord); } } qlock(v); if (v->ord != vord) panic("wormlabel: side %d switched ordinal to %d underfoot", vord, v->ord); if (label->ord != vord) { fprint(2, "labelled worm side %Z has wrong ordinal in label (%d, want %d)", d, label->ord, vord); qunlock(v); cmd_wormreset(0, nil); /* put discs away */ panic("wrong ordinal in label"); } if(chatty) fprint(2, "label %Z ordinal %d\n", d, v->ord); qunlock(v); /* * wormunit should return without calling us again, * since v is now known. */ if (w != d->private) panic("wormlabel: w != %Z->private", d); return wormunit(d); } /* * mounts and spins up the device * locks the structure */ static Side* wormunit(Device *d) /* d is l0 or r2 (e.g.) */ { int p, drive; Device *dr; /* w0 or w1.2.0 (e.g.) */ Side *v; Juke *w; Dir *dir; w = d->private; if (w == nil) panic("wormunit %Z nil juke", d); if (w->magic != Jukemagic) panic("bad magic in Juke for %Z", d); p = d->wren.targ; if(p < 0 || w && p >= w->nside) { panic("wormunit: target %d out of range for %Z", p, d); return 0; } /* * if disk is unloaded, must load it * into next (circular) logical unit */ v = &w->side[p]; qlock(v); if(v->status == Sunload) { for(;;) { qlock(w); drive = bestdrive(w, p); if(drive >= 0) break; qunlock(w); delay(100); } if(chatty) fprint(2, "\tload r%zd drive %Z\n", v-w->side, w->drive[drive]); if(mmove(w, w->mt0, v->elem, w->dt0+drive, v->rot)) { qunlock(w); goto sbad; } v->drive = drive; v->status = Sstart; v->stime = toytime(); qunlock(w); dr = w->drive[drive]; if (!waitready(w, dr)) goto sbad; v->stime = toytime(); } else dr = w->drive[v->drive]; if(v->status != Sstart) { if(v->status == Sempty) fprint(2, "worm: unit empty %Z\n", d); else fprint(2, "worm: not started %Z\n", d); goto sbad; } v->time = toytime(); if(v->block) /* side is known already */ return v; /* * load and record information about side */ if (dr->wren.file) dr->wren.sddata = dataof(dr->wren.file); else { if (dr->wren.sddir == nil) { if (dr->type == Devwren) dr->wren.sddir = sdof(dr); if (dr->wren.sddir == nil) panic("wormunit: %Z for %Z not a wren", dr, d); } dr->wren.sddata = smprint("%s/data", dr->wren.sddir); } if (dr->wren.fd == 0) dr->wren.fd = open(dr->wren.sddata, ORDWR); if (dr->wren.fd < 0) { fprint(2, "wormunit: can't open %s for %Z: %r\n", dr->wren.sddata, d); goto sbad; } v->block = inqsize(dr->wren.sddata); if(v->block <= 0) { if(chatty) fprint(2, "\twormunit %Z block size %ld, setting to %d\n", d, v->block, Sectorsz); v->block = Sectorsz; } dir = dirfstat(dr->wren.fd); v->nblock = dir->length / v->block; free(dir); v->mult = (RBUFSIZE + v->block - 1) / v->block; v->max = (v->nblock + 1) / v->mult; if(chatty){ fprint(2, "\tworm %Z: drive %Z (juke drive %d)\n", d, w->drive[v->drive], v->drive); fprint(2, "\t\t%,ld %ld-byte sectors, ", v->nblock, v->block); fprint(2, "%,ld %d-byte blocks\n", v->max, RBUFSIZE); fprint(2, "\t\t%ld multiplier\n", v->mult); } if(d->type == Devlworm) return wormlabel(d, v); else return v; sbad: qunlock(v); return 0; } /* wait 10s for optical drive to spin up */ static int waitready(Juke *w, Device *d) { int p, e, rv; char *datanm; if (w->magic != Jukemagic) panic("waitready: bad magic in Juke (d->private) for %Z", d); p = d->wren.targ; if(p < 0 || p >= w->nside) { fprint(2, "waitready: target %d out of range for %Z\n", p, d); return 0; } if (d->type == Devwren && d->wren.file) datanm = strdup(d->wren.file); else { if (d->wren.sddir) free(d->wren.sddir); if (d->type == Devwren) d->wren.sddir = sdof(d); if (d->wren.sddir == nil) panic("waitready: d->wren.sddir not set for %Z", d); datanm = smprint("%s/data", d->wren.sddir); } rv = 0; for(e=0; e < 100; e++) { if(e == 10 && chatty) fprint(2, "waitready: waiting for %s to exist\n", datanm); if(access(datanm, AEXIST) >= 0){ rv = 1; break; } delay(200); } if(rv == 0) fprint(2, "waitready: %s for %Z didn't come ready\n", datanm, d); free(datanm); return rv; } static int bestdrive(Juke *w, int side) { Side *v, *bv[MAXDRIVE]; int i, e, drive; Timet t, t0; loop: /* build table of what platters on what drives */ for(i=0; i<w->ndt; i++) bv[i] = 0; v = &w->side[0]; for(i=0; i < w->nside; i++, v++) if(v->status == Sstart) { drive = v->drive; if(drive >= 0 && drive < w->ndt) bv[drive] = v; } /* * find oldest drive, but must be * at least THYSTER old. */ e = w->side[side].elem; t0 = toytime() - THYSTER; t = t0; drive = -1; for(i=0; i<w->ndt; i++) { v = bv[i]; if(v == 0) { /* 2nd priority: empty drive */ if(w->offline[i]) continue; if(w->drive[i] != devnone) { drive = i; t = 0; } continue; } if(v->elem == e) { /* 1st priority: other side */ drive = -1; if(v->stime < t0) drive = i; break; } if(v->stime < t) { /* 3rd priority: by time */ drive = i; t = v->stime; } } if(drive >= 0) { v = bv[drive]; if(v) { qlock(v); if(v->status != Sstart) { qunlock(v); goto loop; } if(chatty) fprint(2, "\tunload r%zd drive %Z\n", v-w->side, w->drive[drive]); if(mmove(w, w->mt0, w->dt0+drive, v->elem, v->rot)) { qunlock(v); goto loop; } v->status = Sunload; qunlock(v); } } return drive; } Devsize wormsize(Device *d) { Side *v; Juke *w; Devsize size; w = d->private; if (w->magic != Jukemagic) fprint(2, "wormsize: bad magic in Juke (d->private) for %Z\n", d); if(w->isfixedsize && w->fixedsize != 0) size = w->fixedsize; /* fixed size is now known */ else { if (w != d->private) panic("wormsize: w != %Z->private", d); v = wormunit(d); if(v == nil) return 0; size = v->max; qunlock(v); /* * set fixed size for whole Juke from * size of first disc examined. */ if(w->isfixedsize) w->fixedsize = size; } if(d->type == Devlworm) return size-1; /* lie: last block is for label */ return size; } /* * return a Devjuke or an mcat (normally of sides) from within d (or nil). * if it's an mcat, the caller must walk it. */ static Device * devtojuke(Device *d, Device *top) { while (d != nil) switch(d->type) { default: fprint(2, "devtojuke: type of device %Z of %Z unknown\n", d, top); return nil; case Devjuke: /* jackpot! d->private is a (Juke *) with nside, &c. */ /* FALL THROUGH */ case Devmcat: case Devmlev: case Devmirr: /* squint hard & call an mlev or a mirr an mcat */ return d; case Devworm: case Devlworm: /* * d->private is a (Juke *) with nside, etc., * but we're not supposed to get here. */ if(chatty) fprint(2, "devtojuke: (l)worm %Z of %Z encountered\n", d, top); /* FALL THROUGH */ case Devwren: return nil; case Devcw: d = d->cw.w; /* usually juke */ break; case Devro: d = d->ro.parent; /* cw */ break; case Devfworm: d = d->fw.fw; break; case Devpart: d = d->part.d; break; case Devswab: d = d->swab.d; break; } return d; } static int devisside(Device *d) { return d->type == Devworm || d->type == Devlworm; } static Device * findside(Device *juke, int side, Device *top) { int i = 0; Device *mcat = juke->j.m, *x; Juke *w = juke->private; for (x = mcat->cat.first; x != nil; x = x->link) { if (!devisside(x)) { fprint(2, "wormsizeside: %Z of %Z of %Z type not (l)worm\n", x, mcat, top); return nil; } i = x->wren.targ; if (i < 0 || i >= w->nside) panic("wormsizeside: side %d in %Z out of range", i, mcat); if (i == side) break; } if (x == nil) return nil; if (w->side[i].time == 0) { fprint(2, "wormsizeside: side %d not in jukebox %Z\n", i, juke); return nil; } return x; } typedef struct { int sleft; /* sides still to visit to reach desired side */ int starget; /* side of topdev we want */ Device *topdev; int sawjuke; /* passed by a jukebox */ int sized; /* flag: asked wormsize for size of starget */ } Visit; /* * walk the Device tree from d looking for Devjukes, counting sides. * the main complication is mcats and the like with Devjukes in them. * use Devjuke's d->private as Juke* and see sides. */ static Off visitsides(Device *d, Device *parentj, Visit *vp) { Off size = 0; Device *x; Juke *w; /* * find the first juke or mcat. * d==nil means we couldn't find one; typically harmless, due to a * mirror of dissimilar devices. */ d = devtojuke(d, vp->topdev); if (d == nil || vp->sleft < 0) return 0; if (d->type == Devjuke) { /* jackpot! d->private is a (Juke *) */ vp->sawjuke = 1; w = d->private; /* * if there aren't enough sides in this jukebox to reach * the desired one, subtract these sides and pass. */ if (vp->sleft >= w->nside) { vp->sleft -= w->nside; return 0; } /* else this is the right juke, paw through mcat of sides */ return visitsides(d->j.m, d, vp); } /* * d will usually be an mcat of sides, but it could be an mcat of * jukes, for example. in that case, we need to walk the mcat, * recursing as needed, until we find the right juke, then stop at * the right side within its mcat of sides, by comparing side * numbers, not just by counting (to allow for unused slots). */ x = d->cat.first; if (x == nil) { fprint(2, "visitsides: %Z of %Z: empty mcat\n", d, vp->topdev); return 0; } if (!devisside(x)) { for (; x != nil && !vp->sized; x = x->link) size = visitsides(x, parentj, vp); return size; } /* the side we want is in this jukebox, thus this mcat (d) */ if (parentj == nil) { fprint(2, "visitsides: no parent juke for sides mcat %Z\n", d); vp->sleft = -1; return 0; } if (d != parentj->j.m) panic("visitsides: mcat mismatch %Z vs %Z", d, parentj->j.m); x = findside(parentj, vp->sleft, vp->topdev); if (x == nil) { vp->sleft = -1; return 0; } /* we've turned vp->starget into the right Device* */ vp->sleft = 0; vp->sized = 1; return wormsize(x); } /* * d must be, or be within, a filesystem config that also contains * the jukebox that `side' resides on. * d is normally a Devcw, but could be Devwren, Devide, Devpart, Devfworm, * etc. if called from chk.c Ctouch code. Note too that the worm part of * the Devcw might be other than a Devjuke. */ Devsize wormsizeside(Device *d, int side) { Devsize size; Visit visit; memset(&visit, 0, sizeof visit); visit.starget = visit.sleft = side; visit.topdev = d; size = visitsides(d, nil, &visit); if (visit.sawjuke && (visit.sleft != 0 || !visit.sized)) { fprint(2, "wormsizeside: fewer than %d sides in %Z\n", side, d); return 0; } return size; } /* * returns starts (in blocks) of side #side and #(side+1) of dev in *stp. * dev should be a Devcw. */ void wormsidestarts(Device *dev, int side, Sidestarts *stp) { int s; Devsize dstart; for (dstart = s = 0; s < side; s++) dstart += wormsizeside(dev, s); stp->sstart = dstart; stp->s1start = dstart + wormsizeside(dev, side); } int wormread(Device *d, Off b, void *c) { int r = 0; long max; char name[128]; Side *v = wormunit(d); Juke *w = d->private; Device *dr; if (v == nil) panic("wormread: nil wormunit(%Z)", d); dr = w->drive[v->drive]; if (dr->wren.fd < 0) panic("wormread: unopened fd for %Z", d); max = (d->type == Devlworm? v->max + 1: v->max); if(b >= max) { fprint(2, "wormread: block out of range %Z(%lld)\n", d, (Wideoff)b); r = 0x071; } else if (pread(dr->wren.fd, c, RBUFSIZE, (vlong)b*RBUFSIZE) != RBUFSIZE) { fd2path(dr->wren.fd, name, sizeof name); fprint(2, "wormread: error on %Z(%lld) on %s in %s: %r\n", d, (Wideoff)b, name, dr->wren.sddir); cons.nwormre++; r = 1; } qunlock(v); return r; } int wormwrite(Device *d, Off b, void *c) { int r = 0; long max; char name[128]; Side *v = wormunit(d); Juke *w = d->private; Device *dr; if (v == nil) panic("wormwrite: nil wormunit(%Z)", d); dr = w->drive[v->drive]; if (dr->wren.fd < 0) panic("wormwrite: unopened fd for %Z", d); max = (d->type == Devlworm? v->max + 1: v->max); if(b >= max) { fprint(2, "wormwrite: block out of range %Z(%lld)\n", d, (Wideoff)b); r = 0x071; } else if (pwrite(dr->wren.fd, c, RBUFSIZE, (vlong)b*RBUFSIZE) != RBUFSIZE) { fd2path(dr->wren.fd, name, sizeof name); fprint(2, "wormwrwite: error on %Z(%lld) on %s in %s: %r\n", d, (Wideoff)b, name, dr->wren.sddir); cons.nwormwe++; r = 1; } qunlock(v); return r; } static int mmove(Juke *w, int trans, int from, int to, int rot) { int s; uchar cmd[12], buf[4]; static int recur = 0; memset(cmd, 0, sizeof cmd); cmd[0] = 0xa5; /* move medium */ cmd[2] = trans>>8; cmd[3] = trans; cmd[4] = from>>8; cmd[5] = from; cmd[6] = to>>8; cmd[7] = to; if(rot) cmd[10] = 1; s = scsiio(w->juke, SCSInone, cmd, sizeof cmd, buf, 0); /* mmove */ if(s) { fprint(2, "scsio status #%x\n", s); fprint(2, "move medium t=%d fr=%d to=%d rot=%d\n", trans, from, to, rot); // panic("mmove"); if(recur == 0) { recur = 1; fprint(2, "element from=%d\n", from); element(w, from); fprint(2, "element to=%d\n", to); element(w, to); fprint(2, "element trans=%d\n", trans); element(w, trans); recur = 0; } return 1; } return 0; } static void geometry(Juke *w) { int s; uchar cmd[6], buf[4+20]; memset(cmd, 0, sizeof cmd); memset(buf, 0, sizeof buf); cmd[0] = 0x1a; /* mode sense */ cmd[2] = 0x1d; /* element address assignment */ cmd[4] = sizeof buf; /* allocation length */ s = scsiio(w->juke, SCSIread, cmd, sizeof cmd, buf, sizeof buf); /* mode sense elem addrs */ if(s) panic("geometry #%x", s); w->mt0 = (buf[4+2]<<8) | buf[4+3]; w->nmt = (buf[4+4]<<8) | buf[4+5]; w->se0 = (buf[4+6]<<8) | buf[4+7]; w->nse = (buf[4+8]<<8) | buf[4+9]; w->ie0 = (buf[4+10]<<8) | buf[4+11]; w->nie = (buf[4+12]<<8) | buf[4+13]; w->dt0 = (buf[4+14]<<8) | buf[4+15]; w->ndt = (buf[4+16]<<8) | buf[4+17]; memset(cmd, 0, 6); memset(buf, 0, sizeof buf); cmd[0] = 0x1a; /* mode sense */ cmd[2] = 0x1e; /* transport geometry */ cmd[4] = sizeof buf; /* allocation length */ s = scsiio(w->juke, SCSIread, cmd, sizeof cmd, buf, sizeof buf); /* mode sense geometry */ if(s) panic("geometry #%x", s); w->rot = buf[4+2] & 1; fprint(2, "\tmt %d %d\n", w->mt0, w->nmt); fprint(2, "\tse %d %d\n", w->se0, w->nse); fprint(2, "\tie %d %d\n", w->ie0, w->nie); fprint(2, "\tdt %d %d\n", w->dt0, w->ndt); fprint(2, "\trot %d\n", w->rot); } /* * read element e's status from jukebox w, move any disc in drive back to its * slot, and update and print software status. */ static void element(Juke *w, int e) { uchar cmd[12], buf[8+8+88]; int s, t; memset(cmd, 0, sizeof cmd); memset(buf, 0, sizeof buf); cmd[0] = 0xb8; /* read element status */ cmd[2] = e>>8; /* starting element */ cmd[3] = e; cmd[5] = 1; /* number of elements */ cmd[9] = sizeof buf; /* allocation length */ s = scsiio(w->juke, SCSIread, cmd, sizeof cmd, buf, sizeof buf); /* read elem sts */ if(s) { fprint(2, "scsiio #%x\n", s); goto bad; } s = (buf[0]<<8) | buf[1]; if(s != e) { fprint(2, "element = %d\n", s); goto bad; } if(buf[3] != 1) { fprint(2, "number reported = %d\n", buf[3]); goto bad; } s = (buf[8+8+0]<<8) | buf[8+8+1]; if(s != e) { fprint(2, "element1 = %d\n", s); goto bad; } switch(buf[8+0]) { /* element type */ default: fprint(2, "unknown element %d: %d\n", e, buf[8+0]); goto bad; case 1: /* transport */ s = e - w->mt0; if(s < 0 || s >= w->nmt) goto bad; if(buf[8+8+2] & 1) fprint(2, "transport %d full %d.%d\n", s, (buf[8+8+10]<<8) | buf[8+8+11], (buf[8+8+9]>>6) & 1); break; case 2: /* storage */ s = e - w->se0; if(s < 0 || s >= w->nse) goto bad; w->side[s].status = Sempty; if(buf[8+8+2] & 1) w->side[s].status = Sunload; if(w->rot) w->side[w->nse+s].status = w->side[s].status; break; case 3: /* import/export */ s = e - w->ie0; if(s < 0 || s >= w->nie) goto bad; if(chatty) fprint(2, "import/export %d #%.2x %d.%d\n", s, buf[8+8+2], (buf[8+8+10]<<8) | buf[8+8+11], (buf[8+8+9]>>6) & 1); break; case 4: /* data transfer */ s = e - w->dt0; if(s < 0 || s >= w->ndt) goto bad; if(chatty) fprint(2, "data transfer %d #%.2x %d.%d\n", s, buf[8+8+2], (buf[8+8+10]<<8) | buf[8+8+11], (buf[8+8+9]>>6) & 1); if(buf[8+8+2] & 1) { t = ((buf[8+8+10]<<8) | buf[8+8+11]) - w->se0; if (t < 0 || t >= w->nse || t >= MAXSIDE || s >= MAXDRIVE) { fprint(2, "element: juke %Z lies; claims side %d is in drive %d\n", w->juke, t, s); /* lying sack of ... */ /* * at minimum, we've avoided corrupting our * data structures. if we know that numbers * like w->nside are valid here, we could use * them in more stringent tests. * perhaps should whack the jukebox upside the * head here to knock some sense into it. */ goto bad; } if(chatty) fprint(2, "r%d in drive %d\n", t, s); if(mmove(w, w->mt0, w->dt0+s, w->se0+t,(buf[8+8+9]>>6) & 1)){ fprint(2, "mmove initial unload\n"); goto bad; } w->side[t].status = Sunload; if(w->rot) w->side[w->nse+t].status = Sunload; } if(buf[8+8+2] & 4){ fprint(2, "drive w%d has exception #%.2x #%.2x\n", s, buf[8+8+4], buf[8+8+5]); goto bad; } break; } return; bad: /* panic("element") */ ; } /* * read all elements' status from jukebox w, move any discs in drives back * to their slots, and update and print software status. */ static void positions(Juke *w) { int i, f; /* mark empty shelves */ for(i=0; i<w->nse; i++) element(w, w->se0+i); for(i=0; i<w->nmt; i++) element(w, w->mt0+i); for(i=0; i<w->nie; i++) element(w, w->ie0+i); for(i=0; i<w->ndt; i++) element(w, w->dt0+i); f = 0; for(i=0; i<w->nse; i++) if(w->side[i].status == Sempty) { if(f) { print("r%d\n", i-1); f = 0; } } else { if(!f) { print("\tshelves r%d-", i); f = 1; } } if(f) print("r%d\n", i-1); } static void jinit(Juke *w, Device *d, int o) { int p; Device *dev = d; switch(d->type) { default: fprint(2, "juke platter not (devmcat of) dev(l)worm: %Z\n", d); panic("jinit: type"); case Devmcat: /* * we don't call mcatinit(d) here, so we have to set d->cat.ndev * ourselves. */ for(d=d->cat.first; d; d=d->link) jinit(w, d, o++); dev->cat.ndev = o; break; case Devlworm: p = d->wren.targ; if(p < 0 || p >= w->nside) panic("jinit partition %Z", d); w->side[p].ord = o; /* FALL THROUGH */ case Devworm: if(d->private) { fprint(2, "juke platter private pointer set %p\n", d->private); panic("jinit: private"); } d->private = w; break; } } Side* wormi(char *arg) { int i, j; Juke *w; Side *v; i = number(arg, -1, 10) - 1; w = jukelist; if(i < 0 || i >= w->nside) { fprint(2, "bad unit number %s (%d)\n", arg, i+1); return 0; } j = i; if(j >= w->nse) j -= w->nse; if(j < w->nside) { v = &w->side[j]; qlock(v); if(v->status == Sstart) { if(mmove(w, w->mt0, w->dt0+v->drive, v->elem, v->rot)) { qunlock(v); return 0; } v->status = Sunload; } qunlock(v); } j += w->nse; if(j < w->nside) { v = &w->side[j]; qlock(v); if(v->status == Sstart) { if(mmove(w, w->mt0, w->dt0+v->drive, v->elem, v->rot)) { qunlock(v); return 0; } v->status = Sunload; } qunlock(v); } v = &w->side[i]; qlock(v); return v; } static void cmd_wormoffline(int argc, char *argv[]) { int u, i; Juke *w; if(argc <= 1) { print("usage: wormoffline drive\n"); return; } u = number(argv[1], -1, 10); w = jukelist; if(u < 0 || u >= w->ndrive) { fprint(2, "bad drive %s (0<=%d<%d)\n", argv[1], u, w->ndrive); return; } if(w->offline[u]) print("drive %d already offline\n", u); w->offline[u] = 1; for(i=0; i<w->ndrive; i++) if(w->offline[i] == 0) return; print("that would take all drives offline\n"); w->offline[u] = 0; } static void cmd_wormonline(int argc, char *argv[]) { int u; Juke *w; if(argc <= 1) { print("usage: wormonline drive\n"); return; } u = number(argv[1], -1, 10); w = jukelist; if(u < 0 || u >= w->ndrive) { print("bad drive %s (0<=%d<%d)\n", argv[1], u, w->ndrive); return; } if(w->offline[u] == 0) print("drive %d already online\n", u); w->offline[u] = 0; } void cmd_wormreset(int, char *[]) { Juke *w; for(w=jukelist; w; w=w->link) { qlock(w); positions(w); qunlock(w); } } static void cmd_wormeject(int argc, char *argv[]) { Juke *w; Side *v; if(argc <= 1) { print("usage: wormeject unit\n"); return; } v = wormi(argv[1]); if(v == 0) return; w = jukelist; mmove(w, w->mt0, v->elem, w->ie0, 0); qunlock(v); } static void cmd_wormingest(int argc, char *argv[]) { Juke *w; Side *v; if(argc <= 1) { print("usage: wormingest unit\n"); return; } v = wormi(argv[1]); if(v == 0) return; w = jukelist; mmove(w, w->mt0, w->ie0, v->elem, 0); qunlock(v); } static void newside(Side *v, int rot, int elem) { qlock(v); qunlock(v); // v->name = "shelf"; v->elem = elem; v->rot = rot; v->status = Sempty; v->time = toytime(); } /* * query jukebox robotics for geometry; * argument is the wren dev of the changer. * result is actually Juke*, but that type is only known in this file. */ void * querychanger(Device *xdev) { Juke *w; Side *v; int i; if (xdev == nil) panic("querychanger: nil Device"); if(xdev->type != Devwren) { fprint(2, "juke changer not wren %Z\n", xdev); goto bad; } for(w=jukelist; w; w=w->link) if(xdev == w->juke) return w; /* * allocate a juke structure * no locking problems. */ w = ialloc(sizeof(Juke), 0); w->magic = Jukemagic; w->isfixedsize = FIXEDSIZE; w->link = jukelist; jukelist = w; if(chatty) fprint(2, "alloc juke %Z\n", xdev); qlock(w); qunlock(w); // w->name = "juke"; w->juke = xdev; w->robotdir = sdof(xdev); w->robot = openscsi(w->robotdir); if (w->robot == nil) panic("can't openscsi(%s): %r", w->robotdir); newscsi(xdev, w->robot); geometry(w); /* * pick up each side */ w->nside = w->nse; if(w->rot) w->nside += w->nside; if(w->nside > MAXSIDE) { fprint(2, "too many sides: %d max %d\n", w->nside, MAXSIDE); goto bad; } for(i=0; i < w->nse; i++) { v = &w->side[i]; newside(v, 0, w->se0 + i); if(w->rot) newside(v + w->nse, 1, w->se0 + i); } positions(w); w->ndrive = w->ndt; if(w->ndrive > MAXDRIVE) { if(chatty) fprint(2, "ndrives truncated to %d\n", MAXDRIVE); w->ndrive = MAXDRIVE; } /* * pick up each drive */ for(i=0; i<w->ndrive; i++) w->drive[i] = devnone; return w; bad: panic("querychanger: %Z", xdev); return nil; } void jukeinit(Device *d) { Juke *w; Device *xdev; int i; static int beenhere = 0; /* j(w<changer>w<station0>...)(r<platters>) */ if (d == nil) panic("jukeinit: nil Device"); xdev = d->j.j; if(xdev == nil || xdev->type != Devmcat) { fprint(2, "juke union not mcat\n"); goto bad; } /* * pick up the changer device */ xdev = xdev->cat.first; w = querychanger(xdev); if (!beenhere) { beenhere = 1; cmd_install("wormreset", "-- put drives back where jukebox thinks they belong", cmd_wormreset); cmd_install("wormeject", "unit -- shelf to outside", cmd_wormeject); cmd_install("wormingest", "unit -- outside to shelf", cmd_wormingest); cmd_install("wormoffline", "unit -- disable drive", cmd_wormoffline); cmd_install("wormonline", "unit -- enable drive", cmd_wormonline); } /* walk through the worm drives */ i = 0; while(xdev = xdev->link) { if(xdev->type != Devwren) { fprint(2, "drive not devwren: %Z\n", xdev); goto bad; } if(w->drive[i]->type != Devnone && xdev != w->drive[i]) { fprint(2, "double init drive %d %Z %Z\n", i, w->drive[i], xdev); goto bad; } if(i >= w->ndrive) { fprint(2, "too many drives %Z\n", xdev); goto bad; } w->drive[i++] = xdev; } if(i <= 0) { fprint(2, "no drives\n"); goto bad; } /* * put w pointer in each platter */ d->private = w; jinit(w, d->j.m, 0); w->probeok = 1; return; bad: panic("juke init"); } /* * called periodically */ void wormprobe(void) { int i, drive; Timet t; Side *v; Juke *w; t = toytime() - TWORM; for(w=jukelist; w; w=w->link) { if(w->probeok == 0 || !canqlock(w)) continue; for(i=0; i<w->nside; i++) { v = &w->side[i]; if(!canqlock(v)) continue; if(v->status == Sstart && t > v->time) { drive = v->drive; if(chatty) fprint(2, "\ttime r%zd drive %Z\n", v-w->side, w->drive[drive]); mmove(w, w->mt0, w->dt0+drive, v->elem, v->rot); v->status = Sunload; } qunlock(v); } qunlock(w); } }