#include "all.h" #include "io.h" #include "mem.h" extern Scsiio buslogic(int, ISAConf*); extern Scsiio ncr53c8xxreset(int, ISAConf*); static struct { char* type; Scsiio (*reset)(int, ISAConf*); } scsictlr[] = { { "aha1542", buslogic, }, { "buslogic", buslogic, }, { "mylex", buslogic, }, /* the name 9load knows */ { "ncr53c8xx", ncr53c8xxreset, }, { 0, }, }; enum { Ninquiry = 255, Nsense = 255, CMDtest = 0x00, CMDreqsense = 0x03, CMDread6 = 0x08, CMDwrite6 = 0x0A, CMDinquiry = 0x12, CMDstart = 0x1B, CMDread10 = 0x28, CMDwrite10 = 0x2A, }; typedef struct { ISAConf; Scsiio io; Target target[NTarget]; } Ctlr; static Ctlr scsi[MaxScsi]; static void cmd_stat(int, char*[]) { Ctlr *ctlr; int ctlrno, targetno; Target *tp; for(ctlrno = 0; ctlrno < MaxScsi; ctlrno++){ ctlr = &scsi[ctlrno]; if(ctlr->io == 0) continue; for(targetno = 0; targetno < NTarget; targetno++){ tp = &ctlr->target[targetno]; if(tp->fflag == 0) continue; print("\t%d.%d work =%7W%7W%7W xfrs\n", ctlrno, targetno, tp->work+0, tp->work+1, tp->work+2); print("\t rate =%7W%7W%7W tBps\n", tp->rate+0, tp->rate+1, tp->rate+2); } } } void scsiinit(void) { Ctlr *ctlr; int ctlrno, n, targetno; Target *tp; for(ctlrno = 0; ctlrno < MaxScsi; ctlrno++){ ctlr = &scsi[ctlrno]; memset(ctlr, 0, sizeof(Ctlr)); if(!isaconfig("scsi", ctlrno, ctlr)) continue; for(n = 0; scsictlr[n].type; n++) { if(strcmp(scsictlr[n].type, ctlr->type)) continue; if((ctlr->io = (*scsictlr[n].reset)(ctlrno, ctlr)) == 0) break; print("scsi#%d: %s: port 0x%lux irq %lud", ctlrno, ctlr->type, ctlr->port, ctlr->irq); if(ctlr->mem) print(" addr 0x%lux", ctlr->mem & ~KZERO); if(ctlr->size) print(" size 0x%lux", ctlr->size); print("\n"); for(targetno = 0; targetno < NTarget; targetno++){ tp = &ctlr->target[targetno]; qlock(tp); qunlock(tp); sprint(tp->id, "scsi#%d.%d", ctlrno, targetno); tp->name = tp->id; tp->ctlrno = ctlrno; tp->targetno = targetno; tp->inquiry = ialloc(Ninquiry, 0); tp->sense = ialloc(Nsense, 0); } break; } if(ctlr->io == 0) print("scsi#%d: %s: port %lux Failed to INIT controller\n", ctlrno, ctlr->type, ctlr->port); } cmd_install("statd", "-- scsi stats", cmd_stat); } static uchar lastcmd[16]; static int lastcmdsz; static int scsiexec(Target* tp, int rw, uchar* cmd, int cbytes, void* data, int* dbytes) { int s; /* * Call the device-specific I/O routine. */ switch(s = scsi[tp->ctlrno].io(tp, rw, cmd, cbytes, data, dbytes)){ case STcheck: memmove(lastcmd, cmd, cbytes); lastcmdsz = cbytes; /*FALLTHROUGH*/ default: /* * It's more complicated than this. There are conditions which * are 'ok' but for which the returned status code is not 'STok'. * Also, not all conditions require a reqsense, there may be a * need to do a reqsense here when necessary and making it * available to the caller somehow. * * Later. */ break; } return s; } static int scsitest(Target* tp, char lun) { uchar cmd[6]; memset(cmd, 0, sizeof(cmd)); cmd[0] = CMDtest; cmd[1] = lun<<5; return scsiexec(tp, SCSIread, cmd, sizeof(cmd), 0, 0); } static int scsistart(Target* tp, char lun, int start) { uchar cmd[6]; memset(cmd, 0, sizeof cmd); cmd[0] = CMDstart; cmd[1] = lun<<5; if(start) cmd[4] = 1; return scsiexec(tp, SCSIread, cmd, sizeof(cmd), 0, 0); } static int scsiinquiry(Target* tp, char lun, int* nbytes) { uchar cmd[6]; memset(cmd, 0, sizeof cmd); cmd[0] = CMDinquiry; cmd[1] = lun<<5; *nbytes = Ninquiry; cmd[4] = *nbytes; return scsiexec(tp, SCSIread, cmd, sizeof(cmd), tp->inquiry, nbytes); } static char *key[] = { "no sense", "recovered error", "not ready", "medium error", "hardware error", "illegal request", "unit attention", "data protect", "blank check", "vendor specific", "copy aborted", "aborted command", "equal", "volume overflow", "miscompare", "reserved" }; static int scsireqsense(Target* tp, char lun, int* nbytes, int quiet) { char *s; int n, status, try; uchar cmd[6], *sense; sense = tp->sense; for(try = 0; try < 20; try++) { memset(cmd, 0, sizeof(cmd)); cmd[0] = CMDreqsense; cmd[1] = lun<<5; cmd[4] = Ninquiry; memset(sense, 0, Ninquiry); *nbytes = Ninquiry; status = scsiexec(tp, SCSIread, cmd, sizeof(cmd), sense, nbytes); if(status != STok) return status; *nbytes = sense[0x07]+8; switch(sense[2] & 0x0F){ case 6: /* unit attention */ /* * 0x28 - not ready to ready transition, * medium may have changed. * 0x29 - power on, RESET or BUS DEVICE RESET occurred. */ if(sense[12] != 0x28 && sense[12] != 0x29) goto buggery; /*FALLTHROUGH*/ case 0: /* no sense */ case 1: /* recovered error */ return STok; case 8: /* blank data */ return STblank; case 2: /* not ready */ if(sense[12] == 0x3A) /* medium not present */ goto buggery; /*FALLTHROUGH*/ default: /* * If unit is becoming ready, rather than not ready, * then wait a little then poke it again; should this * be here or in the caller? */ if((sense[12] == 0x04 && sense[13] == 0x01)){ waitsec(500); scsitest(tp, lun); break; } goto buggery; } } buggery: if(quiet == 0){ s = key[sense[2]&0x0F]; print("%s: reqsense: '%s' code #%2.2ux #%2.2ux\n", tp->id, s, sense[12], sense[13]); print("%s: byte 2: #%2.2ux, bytes 15-17: #%2.2ux #%2.2ux #%2.2ux\n", tp->id, sense[2], sense[15], sense[16], sense[17]); print("lastcmd (%d): ", lastcmdsz); for(n = 0; n < lastcmdsz; n++) print(" #%2.2ux", lastcmd[n]); print("\n"); } return STcheck; } static Target* scsitarget(Device* d) { int ctlrno, targetno; ctlrno = d->wren.ctrl; if(ctlrno < 0 || ctlrno >= MaxScsi || scsi[ctlrno].io == 0) return 0; targetno = d->wren.targ; if(targetno < 0 || targetno >= NTarget) return 0; return &scsi[ctlrno].target[targetno]; } static void scsiprobe(Device* d) { Target *tp; int nbytes, s; uchar *sense; int acount; if((tp = scsitarget(d)) == 0) panic("scsiprobe: device = %Z\n", d); acount = 0; again: s = scsitest(tp, d->wren.lun); if(s < STok){ print("%s: test, status %d\n", tp->id, s); return; } /* * Determine if the drive exists and is not ready or * is simply not responding. * If the status is OK but the drive came back with a 'power on' or * 'reset' status, try the test again to make sure the drive is really * ready. * If the drive is not ready and requires intervention, try to spin it * up. */ s = scsireqsense(tp, d->wren.lun, &nbytes, acount); sense = tp->sense; switch(s){ case STok: if((sense[2] & 0x0F) == 0x06 && (sense[12] == 0x28 || sense[12] == 0x29)){ if(acount == 0){ acount = 1; goto again; } } break; case STcheck: if((sense[2] & 0x0F) == 0x02){ if(sense[12] == 0x3A) break; if(sense[12] == 0x04 && sense[13] == 0x02){ print("%s: starting...\n", tp->id); if(scsistart(tp, d->wren.lun, 1) == STok) break; s = scsireqsense(tp, d->wren.lun, &nbytes, 0); } } /*FALLTHROUGH*/ default: print("%s: unavailable, status %d\n", tp->id, s); return; } /* * Inquire to find out what the device is. * Hardware drivers may need some of the info. */ s = scsiinquiry(tp, d->wren.lun, &nbytes); if(s != STok) { print("%s: inquiry failed, status %d\n", tp->id, s); return; } print("%s: %s\n", tp->id, (char*)tp->inquiry+8); tp->ok = 1; } int scsiio(Device* d, int rw, uchar* cmd, int cbytes, void* data, int dbytes) { Target *tp; int e, nbytes, s; if((tp = scsitarget(d)) == 0) panic("scsiio: device = %Z\n", d); qlock(tp); if(tp->ok == 0) scsiprobe(d); if(tp->fflag == 0) { /* last args were 1000, now 1 */ dofilter(tp->work+0, C0a, C0b, 1); dofilter(tp->work+1, C1a, C1b, 1); dofilter(tp->work+2, C2a, C2b, 1); /* */ dofilter(tp->rate+0, C0a, C0b, 1); dofilter(tp->rate+1, C1a, C1b, 1); dofilter(tp->rate+2, C2a, C2b, 1); tp->fflag = 1; } tp->work[0].count++; tp->work[1].count++; tp->work[2].count++; tp->rate[0].count += dbytes; tp->rate[1].count += dbytes; tp->rate[2].count += dbytes; qunlock(tp); s = STinit; for(e = 0; e < 10; e++){ for(;;){ nbytes = dbytes; s = scsiexec(tp, rw, cmd, cbytes, data, &nbytes); if(s == STok) break; s = scsireqsense(tp, d->wren.lun, &nbytes, 0); if(s == STblank && rw == SCSIread) { memset(data, 0, dbytes); return STok; } if(s != STok) break; } if(s == STok) break; } if(e) print("%s: retry %d cmd #%x\n", tp->id, e, cmd[0]); return s; }