/* * Written by Julian Elischer (julian@tfs.com) * for TRW Financial Systems for use under the MACH(2.5) operating system. * * TRW Financial Systems, in accordance with their agreement with Carnegie * Mellon University, makes this software available to CMU to distribute * or use in any manner that they see fit as long as this message is kept with * the software. For this reason TFS also grants any other persons or * organisations permission to use or modify this software. * * TFS supplies this software to be publicly redistributed * on the understanding that TFS is not responsible for the correct * functioning of this software in any circumstances. * * Ported to run under 386BSD by Julian Elischer (julian@tfs.com) Sept 1992 * * New configuration setup: dufault@hda.com * * $Id: scsiconf.c,v 1.25 1995/03/19 14:29:06 davidg Exp $ */ #include #include #include #include #include #include #include #include #include "scbus.h" #include "sd.h" #include "st.h" #include "cd.h" #include "ch.h" #include "su.h" #include #include /* * XXX SCSI_DEVICE_ENTRIES() generates extern switches but it should * generate static switches except for this. Separate macros are * probably required for the extern and static parts. */ extern struct scsi_device uk_switch; /* Extensible arrays: Use a realloc like implementation to permit * the arrays to be extend. These are set up to be moved out * of this file if needed elsewhere. */ struct extend_array { int nelem; void **ps; }; static void *extend_alloc(size_t s) { void *p = malloc(s, M_DEVBUF, M_NOWAIT); if (!p) panic("extend_alloc: malloc failed."); return p; } static void extend_free(void *p) { free(p, M_DEVBUF); } #define EXTEND_CHUNK 8 struct extend_array *extend_new(void) { struct extend_array *p = extend_alloc(sizeof(*p)); p->nelem = 0; p->ps = 0; return p; } void *extend_set(struct extend_array *ea, int index, void *value) { if (index >= ea->nelem) { void **space; space = extend_alloc(sizeof(void *) * (index + EXTEND_CHUNK)); bzero(space, sizeof(void *) * (index + EXTEND_CHUNK)); /* Make sure we have something to copy before we copy it */ if (ea->nelem) { bcopy(ea->ps, space, sizeof(void *) * ea->nelem); extend_free(ea->ps); } ea->ps = space; ea->nelem = index + EXTEND_CHUNK; } if (ea->ps[index]) { printf("extend_set: entry %d already has storage.\n", index); return 0; } else ea->ps[index] = value; return value; } void *extend_get(struct extend_array *ea, int index) { if (ea == NULL || index >= ea->nelem || index < 0) return NULL; return ea->ps[index]; } void extend_release(struct extend_array *ea, int index) { void *p = extend_get(ea, index); if (p) { ea->ps[index] = 0; } } /* * This extend_array holds an array of "scsibus_data" pointers. * One of these is allocated and filled in for each scsi bus. * it holds pointers to allow the scsi bus to get to the driver * That is running each LUN on the bus * it also has a template entry which is the prototype struct * supplied by the adapter driver, this is used to initialise * the others, before they have the rest of the fields filled in */ struct extend_array *scbusses; /* * The structure of known drivers for autoconfiguration */ struct scsidevs { u_int32 type; boolean removable; char *manufacturer; char *model; char *version; char *devname; char flags; /* 1 show my comparisons during boot(debug) */ #ifdef NEW_SCSICONF u_int16 quirks; void *devmodes; #endif }; #define SC_SHOWME 0x01 #define SC_ONE_LU 0x00 #define SC_MORE_LUS 0x02 static struct scsidevs unknowndev = { T_UNKNOWN, 0, "*", "*", "*", "uk", SC_MORE_LUS }; #ifdef NEW_SCSICONF static st_modes mode_tandberg3600 = { {0, 0, 0}, /* minor 0,1,2,3 */ {0, ST_Q_FORCE_VAR_MODE, QIC_525}, /* minor 4,5,6,7 */ {0, 0, QIC_150}, /* minor 8,9,10,11 */ {0, 0, QIC_120} /* minor 12,13,14,15 */ }; static st_modes mode_archive2525 = { {0, ST_Q_SNS_HLP, 0}, /* minor 0,1,2,3 */ {0, ST_Q_SNS_HLP, QIC_525}, /* minor 4,5,6,7 */ {0, 0, QIC_150}, /* minor 8,9,10,11 */ {0, 0, QIC_120} /* minor 12,13,14,15 */ }; static st_modes mode_archive150 = { {0, 0, 0}, /* minor 0,1,2,3 */ {0, 0, QIC_150}, /* minor 4,5,6,7 */ {0, 0, QIC_120}, /* minor 8,9,10,11 */ {0, 0, QIC_24} /* minor 12,13,14,15 */ }; static st_modes mode_wangtek5525 = { {0, 0, 0}, /* minor 0,1,2,3 */ {0, ST_Q_BLKSIZ, QIC_525}, /* minor 4,5,6,7 */ {0, 0, QIC_150}, /* minor 8,9,10,11 */ {0, 0, QIC_120} /* minor 12,13,14,15 */ }; static st_modes mode_wangdat1300 = { {0, 0, 0}, /* minor 0,1,2,3 */ {512, ST_Q_FORCE_FIXED_MODE, DDS}, /* minor 4,5,6,7 */ {1024, ST_Q_FORCE_FIXED_MODE, DDS}, /* minor 8,9,10,11 */ {0, ST_Q_FORCE_VAR_MODE, DDS} /* minor 12,13,14,15 */ }; static st_modes mode_unktape = { {512, ST_Q_FORCE_FIXED_MODE, 0}, /* minor 0,1,2,3 */ {512, ST_Q_FORCE_FIXED_MODE, QIC_24}, /* minor 4,5,6,7 */ {0, ST_Q_FORCE_VAR_MODE, HALFINCH_1600}, /* minor 8,9,10,11 */ {0, ST_Q_FORCE_VAR_MODE, HALFINCH_6250} /* minor 12,13,14,15 */ }; #endif /* NEW_SCSICONF */ static struct scsidevs knowndevs[] = #ifdef NEW_SCSICONF { #if NSD > 0 { T_DIRECT, T_FIXED, "MAXTOR", "XT-4170S", "B5A", "mx1", SC_ONE_LU }, { T_DIRECT, T_FIXED, "*", "*", "*", "sd", SC_ONE_LU }, #endif /* NSD */ #if NST > 0 { T_SEQUENTIAL, T_REMOV, "TANDBERG", " TDC 3600", "*", "st", SC_ONE_LU, ST_Q_NEEDS_PAGE_0, mode_tandberg3600 }, { T_SEQUENTIAL, T_REMOV, "ARCHIVE", "VIPER 2525*", "-005", "st", SC_ONE_LU, 0, mode_archive2525 }, { T_SEQUENTIAL, T_REMOV, "ARCHIVE", "VIPER 150", "*", "st", SC_ONE_LU, ST_Q_NEEDS_PAGE_0, mode_archive150 }, { T_SEQUENTIAL, T_REMOV, "WANGTEK", "5525ES*", "*", "st", SC_ONE_LU, 0, mode_wangtek5525 }, { T_SEQUENTIAL, T_REMOV, "WangDAT", "Model 1300", "*", "st", SC_ONE_LU, 0, mode_wangdat1300 }, { T_SEQUENTIAL, T_REMOV, "*", "*", "*", "st", SC_ONE_LU, 0, mode_unktape }, #endif /* NST */ #if NCH > 0 { T_CHANGER, T_REMOV, "*", "*", "*", "ch", SC_ONE_LU }, #endif /* NCH */ #if NCD > 0 #ifndef UKTEST /* make cdroms unrecognised to test the uk driver */ { T_READONLY, T_REMOV, "SONY", "CD-ROM CDU-8012", "3.1a", "cd", SC_ONE_LU }, { T_READONLY, T_REMOV, "PIONEER", "CD-ROM DRM-600", "*", "cd", SC_MORE_LUS }, #endif #endif /* NCD */ { 0 } }; #else { #if NSD > 0 { T_DIRECT, T_FIXED, "standard", "any" ,"any", "sd", SC_ONE_LU }, { T_DIRECT, T_FIXED, "MAXTOR ", "XT-4170S " ,"B5A ", "mx1", SC_ONE_LU }, #endif /* NSD */ #if NST > 0 { T_SEQUENTIAL, T_REMOV, "standard", "any" ,"any", "st", SC_ONE_LU }, #endif /* NST */ #if NCH > 0 { T_CHANGER, T_REMOV, "standard", "any" ,"any", "ch", SC_ONE_LU }, #endif /* NCH */ #if NCD > 0 #ifndef UKTEST /* make cdroms unrecognised to test the uk driver */ { T_READONLY, T_REMOV, "SONY ", "CD-ROM CDU-8012 " ,"3.1a", "cd", SC_ONE_LU }, { T_READONLY, T_REMOV, "PIONEER ", "CD-ROM DRM-600 " ,"any", "cd", SC_MORE_LUS }, #endif #endif /* NCD */ { 0 } }; #endif /* NEW_SCSICONF */ /* * Declarations */ struct scsidevs *scsi_probedev(); struct scsidevs *scsi_selectdev(); errval scsi_probe_bus(int bus, int targ, int lun); /* XXX dufault@hda.com * This scsi_device doesn't have the scsi_data_size. * This is used during probe. */ struct scsi_device probe_switch = { NULL, NULL, NULL, NULL, "probe", 0, {0, 0}, NULL, 0 }; /* * XXX * This is BOGUS. * We do this because it was easier than adding the requisite information * to the scsi_link structure and modifying everything to use that. * Someday, we will do just that, and users will be able to nail down their * preferred SCSI ids. * */ struct kern_devconf kdc_scbus0 = { 0, 0, 0, /* filled in by dev_attach */ "scbus", 0, MDDC_SCBUS, 0, 0, 0, 0, /* no external data */ 0, /* no parent */ 0, /* no parentdata */ DC_BUSY, /* busses are always busy */ "SCSI subsystem" }; static int free_bus; /* First bus not wired down */ extern void ukinit(); static struct scsi_device *device_list; static int next_free_type = T_NTYPES; /* Register new functions at the head of the list. That allows * you to replace a standard driver with a new one. * * You can't register the exact device (the same in memory structure) * more than once - the list links are part of the structure. That is * prevented. * * Unusual devices should always be registered as type "-1". Then * the next available type number will be allocated for it. * * Be careful not to register a type as 0 unless you really mean to * replace the disk driver. */ void scsi_device_register(struct scsi_device *sd) { /* Not only is it pointless to add the same device more than once * but it will also screw up the list. */ struct scsi_device *is_there; for (is_there = device_list; is_there; is_there = is_there->next) if (is_there == sd) return; if (sd->type == -1) sd->type = next_free_type++; sd->next = device_list; device_list = sd; if (sd->links == 0) sd->links = extend_new(); } static struct scsi_device * scsi_device_lookup(int type) { struct scsi_device *sd; for (sd = device_list; sd; sd = sd->next) if (sd->type == type) return sd; return &uk_switch; } static struct scsi_device * scsi_device_lookup_by_name(char *name) { struct scsi_device *sd; for (sd = device_list; sd; sd = sd->next) if (strcmp(sd->name, name) == 0) return sd; return &uk_switch; } /* Macro that lets us know something is specified. */ #define IS_SPECIFIED(ARG) (ARG != SCCONF_UNSPEC && ARG != SCCONF_ANY) /* scsi_init: Do all the one time processing. This initializes the * type drivers and initializes the configuration. */ static void scsi_init(void) { static int done = 0; if(!done) { int i; done = 1; scbusses = extend_new(); dev_attach(&kdc_scbus0); /* First call all type initialization functions. */ ukinit(); for (i = 0; scsi_tinit[i]; i++) (*scsi_tinit[i])(); /* Lowest free bus for auto-configure is one * more than the first one not * specified in config: */ for (i = 0; scsi_cinit[i].driver; i++) if (IS_SPECIFIED(scsi_cinit[i].unit) && free_bus <= scsi_cinit[i].unit) free_bus = scsi_cinit[i].unit + 1; /* Lowest free unit for each type for auto-configure is one * more than the first one not specified in the config file: */ for (i = 0; scsi_dinit[i].name; i++) { struct scsi_device_config *sdc = scsi_dinit + i; struct scsi_device *sd = scsi_device_lookup_by_name(sdc->name); /* This is a little tricky: We don't want "sd 4" to match as * a wired down device, but we do want "sd 4 target 5" or * even "sd 4 scbus 1" to match. */ if (IS_SPECIFIED(sdc->unit) && (IS_SPECIFIED(sdc->target) || IS_SPECIFIED(sdc->cunit)) && sd->free_unit <= sdc->unit) sd->free_unit = sdc->unit + 1; } } } /* Feel free to take this out when everyone is sure this config * code works well. For now it lets us tell new configurations from * old ones. */ #define CONFIG_NOISE /* scsi_bus_conf: Figure out which bus this is. If it is wired in config * use that. Otherwise use the next free one. */ static int scsi_bus_conf(sc_link_proto) struct scsi_link *sc_link_proto; { int i; int bus; /* Which bus is this? Try to find a match in the "scsi_cinit" * table. If it isn't wired down auto-configure it at the * next available bus. */ bus = SCCONF_UNSPEC; for (i = 0; scsi_cinit[i].driver; i++) { if (IS_SPECIFIED(scsi_cinit[i].unit)) { if (!strcmp(sc_link_proto->adapter->name, scsi_cinit[i].driver) && (sc_link_proto->adapter_unit == scsi_cinit[i].unit) ) { bus = scsi_cinit[i].bus; #ifdef CONFIG_NOISE printf("Choosing drivers for scbus configured at %d\n", bus); #endif break; } } } if (bus == SCCONF_UNSPEC) bus = free_bus++; return bus; } /* scsi_assign_unit: Look through the structure generated by config. * See if there is a fixed assignment for this unit. If there isn't, * assign the next free unit. */ static int scsi_assign_unit(struct scsi_link *sc_link) { int i; int found; found = 0; for (i = 0; scsi_dinit[i].name; i++) { if ((strcmp(sc_link->device->name, scsi_dinit[i].name) == 0) && sc_link->target == scsi_dinit[i].target && ( (sc_link->lun == scsi_dinit[i].lun) || (sc_link->lun == 0 && scsi_dinit[i].lun == SCCONF_UNSPEC) ) && sc_link->scsibus == scsi_dinit[i].cunit) { sc_link->dev_unit = scsi_dinit[i].unit; found = 1; #ifdef CONFIG_NOISE printf("%s is configured at %d\n", sc_link->device->name, sc_link->dev_unit); #endif break; } } if (!found) sc_link->dev_unit = sc_link->device->free_unit++; return sc_link->dev_unit; } /* * The routine called by the adapter boards to get all their * devices configured in. */ void scsi_attachdevs(sc_link_proto) struct scsi_link *sc_link_proto; { int scsibus; struct scsibus_data *scbus; scsi_init(); if ( (scsibus = scsi_bus_conf(sc_link_proto)) == -1) { return; } /* * if the adapter didn't give us this, set a default * (compatibility with old adapter drivers) */ if(!(sc_link_proto->opennings)) { sc_link_proto->opennings = 1; } sc_link_proto->scsibus = scsibus; scbus = malloc(sizeof(struct scsibus_data), M_TEMP, M_NOWAIT); if(scbus == 0 || extend_set(scbusses, scsibus, scbus) == 0) { panic("scsi_attachdevs: malloc"); } bzero(scbus, sizeof(struct scsibus_data)); scbus->adapter_link = sc_link_proto; #if defined(SCSI_DELAY) && SCSI_DELAY > 2 printf("%s%d waiting for scsi devices to settle\n", sc_link_proto->adapter->name, sc_link_proto->adapter_unit); #else /* SCSI_DELAY > 2 */ #undef SCSI_DELAY #define SCSI_DELAY 2 #endif /* SCSI_DELAY */ DELAY(1000000 * SCSI_DELAY); scsi_probe_bus(scsibus,-1,-1); } /* * Probe the requested scsi bus. It must be already set up. * -1 requests all set up scsi busses. * targ and lun optionally narrow the search if not -1 */ errval scsi_probe_busses(int bus, int targ, int lun) { if (bus == -1) { for(bus = 0; bus < scbusses->nelem; bus++) { scsi_probe_bus(bus, targ, lun); } return 0; } else { return scsi_probe_bus(bus, targ, lun); } } /* scsi_alloc_unit: Register a scsi_data pointer for a given * unit in a given scsi_device structure. * * XXX dufault@hda.com: I still don't like the way this reallocs stuff - * but at least now it is collected in one place instead of existing * in multiple type drivers. I'd like it better if we had it do a * second pass after it knew the sizes of everything and set up everything * at once. */ static int scsi_alloc_unit(struct scsi_link *sc_link) { u_int32 unit; struct scsi_link **strealloc; struct scsi_data *sd; struct scsi_device *dsw; unit = sc_link->dev_unit; dsw = sc_link->device; /* * allocate the per unit data area */ if (dsw->sizeof_scsi_data) { sd = malloc(dsw->sizeof_scsi_data, M_DEVBUF, M_NOWAIT); if (!sd) { printf("%s%ld: malloc failed for scsi_data\n", sc_link->device->name, unit); return 0; } bzero(sd, dsw->sizeof_scsi_data); } else sd = 0; sc_link->sd = sd; if (extend_set(dsw->links, unit, (void *)sc_link) == 0) { printf("%s%ld: Can't store link pointer.\n", sc_link->device->name, unit); free(sd, M_DEVBUF); return 0; } return 1; } static void scsi_free_unit(struct scsi_link *sc_link) { if (sc_link->sd) { free(sc_link->sd, M_DEVBUF); sc_link->sd = 0; } extend_release(sc_link->device->links, sc_link->dev_unit); } /* * Probe the requested scsi bus. It must be already set up. * targ and lun optionally narrow the search if not -1 */ errval scsi_probe_bus(int bus, int targ, int lun) { struct scsibus_data *scsi ; int maxtarg,mintarg,maxlun,minlun; struct scsi_link *sc_link_proto; u_int8 scsi_addr ; struct scsidevs *bestmatch = NULL; struct scsi_link *sc_link = NULL; boolean maybe_more; int type; if ((bus < 0 ) || ( bus >= scbusses->nelem)) { return ENXIO; } scsi = (struct scsibus_data *)extend_get(scbusses, bus); if(!scsi) return ENXIO; sc_link_proto = scsi->adapter_link; scsi_addr = sc_link_proto->adapter_targ; if(targ == -1){ maxtarg = 7; mintarg = 0; } else { if((targ < 0 ) || (targ > 7)) return EINVAL; maxtarg = mintarg = targ; } if(lun == -1){ maxlun = 7; minlun = 0; } else { if((lun < 0 ) || (lun > 7)) return EINVAL; maxlun = minlun = lun; } for ( targ = mintarg;targ <= maxtarg; targ++) { maybe_more = 0; /* by default only check 1 lun */ if (targ == scsi_addr) { continue; } for ( lun = minlun; lun <= maxlun ;lun++) { /* * The spot appears to already have something * linked in, skip past it. Must be doing a 'reprobe' */ if(scsi->sc_link[targ][lun]) {/* don't do this one, but check other luns */ maybe_more = 1; continue; } /* * If we presently don't have a link block * then allocate one to use while probing */ if (!sc_link) { sc_link = malloc(sizeof(*sc_link), M_TEMP, M_NOWAIT); } *sc_link = *sc_link_proto; /* struct copy */ sc_link->device = &probe_switch; sc_link->target = targ; sc_link->lun = lun; sc_link->quirks = 0; bestmatch = scsi_probedev(sc_link, &maybe_more, &type); #ifdef NEW_SCSICONF if (bestmatch) { sc_link->quirks = bestmatch->quirks; sc_link->devmodes = bestmatch->devmodes; } else { sc_link->quirks = 0; sc_link->devmodes = NULL; } #endif if (bestmatch) { /* FOUND */ sc_link->device = scsi_device_lookup(type); (void)scsi_assign_unit(sc_link); if (scsi_alloc_unit(sc_link)) { if (scsi_device_attach(sc_link) == 0) { scsi->sc_link[targ][lun] = sc_link; sc_link = NULL; /* it's been used */ } else scsi_free_unit(sc_link); } } if (!(maybe_more)) { /* nothing suggests we'll find more */ break; /* nothing here, skip to next targ */ } /* otherwise something says we should look further */ } } if (sc_link) { free(sc_link, M_TEMP); } return 0; } /* Return the scsi_link for this device, if any. */ struct scsi_link * scsi_link_get(bus, targ, lun) int bus; int targ; int lun; { struct scsibus_data *scsi = (struct scsibus_data *)extend_get(scbusses, bus); return (scsi) ? scsi->sc_link[targ][lun] : 0; } static void rm_spaces(char *text, int n) { while (n && text[n - 1] == ' ') n--; text[n] = 0; /* Zap */ } /* * given a target and lu, ask the device what * it is, and find the correct driver table * entry. */ struct scsidevs * scsi_probedev(sc_link, maybe_more, type_p) boolean *maybe_more; struct scsi_link *sc_link; int *type_p; { u_int8 unit = sc_link->adapter_unit; u_int8 target = sc_link->target; u_int8 lu = sc_link->lun; struct scsi_adapter *scsi_adapter = sc_link->adapter; struct scsidevs *bestmatch = (struct scsidevs *) 0; char *dtype = (char *) 0, *desc; char *qtype; struct scsi_inquiry_data *inqbuf; u_int32 len, qualifier, type; boolean remov; char manu[32]; char model[32]; char version[32]; int z; inqbuf = &sc_link->inqbuf; bzero(inqbuf, sizeof(*inqbuf)); /* * Ask the device what it is */ #ifdef SCSIDEBUG if ((target == DEBUGTARG) && (lu == DEBUGLUN)) sc_link->flags |= (DEBUGLEVEL); else sc_link->flags &= ~(SDEV_DB1 | SDEV_DB2 | SDEV_DB3 | SDEV_DB4); #endif /* SCSIDEBUG */ /* catch unit attn */ scsi_test_unit_ready(sc_link, SCSI_NOSLEEP | SCSI_NOMASK | SCSI_SILENT); #ifdef DOUBTFULL switch (scsi_test_unit_ready(sc_link, SCSI_NOSLEEP | SCSI_NOMASK | SCSI_SILENT)) { case 0: /* said it WAS ready */ case EBUSY: /* replied 'NOT READY' but WAS present, continue */ case ENXIO: break; case EIO: /* device timed out */ case EINVAL: /* Lun not supported */ default: return (struct scsidevs *) 0; } #endif /*DOUBTFULL*/ #ifdef SCSI_2_DEF /* some devices need to be told to go to SCSI2 */ /* However some just explode if you tell them this.. leave it out */ scsi_change_def(sc_link, SCSI_NOSLEEP | SCSI_NOMASK | SCSI_SILENT); #endif /*SCSI_2_DEF */ /* Now go ask the device all about itself */ if (scsi_inquire(sc_link, inqbuf, SCSI_NOSLEEP | SCSI_NOMASK) != 0) { return (struct scsidevs *) 0; } /* * note what BASIC type of device it is */ type = inqbuf->device & SID_TYPE; qualifier = inqbuf->device & SID_QUAL; remov = inqbuf->dev_qual2 & SID_REMOVABLE; /* * Any device qualifier that has the top bit set (qualifier&4 != 0) * is vendor specific and won't match in this switch. */ switch ((int)qualifier) { case SID_QUAL_LU_OK: qtype = ""; break; case SID_QUAL_LU_OFFLINE: qtype = ", Unit not Connected!"; break; case SID_QUAL_RSVD: qtype = ", Reserved Peripheral Qualifier!"; *maybe_more = 1; return (struct scsidevs *) 0; break; case SID_QUAL_BAD_LU: /* * Check for a non-existent unit. If the device is returning * this much, then we must set the flag that has * the searchers keep looking on other luns. */ qtype = ", The Target can't support this Unit!"; *maybe_more = 1; return (struct scsidevs *) 0; default: dtype = "vendor specific"; qtype = ""; *maybe_more = 1; break; } if (dtype == 0) { if (type == T_NODEVICE) { *maybe_more = 1; return (struct scsidevs *) 0; } dtype = scsi_type_long_name(type); } /* * Then if it's advanced enough, more detailed * information */ if ((inqbuf->version & SID_ANSII) > 0) { if ((len = inqbuf->additional_length + ((char *) inqbuf->unused - (char *) inqbuf)) > (sizeof(struct scsi_inquiry_data) - 1)) len = sizeof(struct scsi_inquiry_data) - 1; desc = inqbuf->vendor; desc[len - (desc - (char *) inqbuf)] = 0; strncpy(manu, inqbuf->vendor, 8); strncpy(model, inqbuf->product, 16); strncpy(version, inqbuf->revision, 4); for(z = 0; z < 4; z++) { if (version[z]<' ') version[z]='?'; } } else /* * If not advanced enough, use default values */ { desc = "early protocol device"; strncpy(manu, "unknown", 8); strncpy(model, "unknown", 16); strncpy(version, "????", 4); } rm_spaces(manu, 8); rm_spaces(model, 16); rm_spaces(version, 4); sc_print_addr(sc_link); printf("\"%s %s %s\" is a ", manu, model, version ); printf("type %ld %sSCSI %d" ,type ,remov ? "removable " : "fixed " ,inqbuf->version & SID_ANSII ); if (qtype[0]) { printf(" qualifier %ld(%s)" ,qualifier ,qtype); } printf("\n"); /* * Try make as good a match as possible with * available sub drivers */ bestmatch = (scsi_selectdev( qualifier, type, remov ? T_REMOV : T_FIXED, manu, model, version)); if ((bestmatch) && (bestmatch->flags & SC_MORE_LUS)) { *maybe_more = 1; } /* If the device is unknown then we should be trying to look up a * type driver based on the inquiry type. */ if (bestmatch == &unknowndev) *type_p = type; else *type_p = bestmatch->type; return bestmatch; } /* Try to find the major number for a device during attach. */ dev_t scsi_dev_lookup(d_open) int (*d_open)(); { int i; dev_t d = NODEV; for (i = 0; i < nchrdev; i++) if (cdevsw[i].d_open == d_open) { d = makedev(i, 0); break; } return d; } #ifdef NEW_SCSICONF /* * Compare name with pattern, return 0 on match. * Short pattern matches trailing blanks in name, * wildcard '*' in pattern matches rest of name */ int match(pattern, name) char *pattern; char *name; { char c; while (c = *pattern++) { if (c == '*') return 0; if (c != *name++) return 1; } while (c = *name++) { if (c != ' ') return 1; } return 0; } #endif /* * Try make as good a match as possible with * available sub drivers */ struct scsidevs * scsi_selectdev(qualifier, type, remov, manu, model, rev) u_int32 qualifier, type; boolean remov; char *manu, *model, *rev; { #ifdef NEW_SCSICONF struct scsidevs *bestmatch = NULL; struct scsidevs *thisentry; type |= qualifier; /* why? */ for ( thisentry = knowndevs; thisentry->manufacturer; thisentry++ ) { if (type != thisentry->type) { continue; } if (remov != thisentry->removable) { continue; } if (thisentry->flags & SC_SHOWME) printf("\n%s-\n%s-", thisentry->manufacturer, manu); if (match(thisentry->manufacturer, manu)) { continue; } if (thisentry->flags & SC_SHOWME) printf("\n%s-\n%s-", thisentry->model, model); if (match(thisentry->model, model)) { continue; } if (thisentry->flags & SC_SHOWME) printf("\n%s-\n%s-", thisentry->version, rev); if (match(thisentry->version, rev)) { continue; } bestmatch = thisentry; break; } #else u_int32 numents = (sizeof(knowndevs) / sizeof(struct scsidevs)) - 1; u_int32 count = 0; u_int32 bestmatches = 0; struct scsidevs *bestmatch = (struct scsidevs *) 0; struct scsidevs *thisentry = knowndevs; type |= qualifier; /* why? */ thisentry--; while (count++ < numents) { thisentry++; if (type != thisentry->type) { continue; } if (bestmatches < 1) { bestmatches = 1; bestmatch = thisentry; } if (remov != thisentry->removable) { continue; } if (bestmatches < 2) { bestmatches = 2; bestmatch = thisentry; } if (thisentry->flags & SC_SHOWME) printf("\n%s-\n%s-", thisentry->manufacturer, manu); if (strcmp(thisentry->manufacturer, manu)) { continue; } if (bestmatches < 3) { bestmatches = 3; bestmatch = thisentry; } if (thisentry->flags & SC_SHOWME) printf("\n%s-\n%s-", thisentry->model, model); if (strcmp(thisentry->model, model)) { continue; } if (bestmatches < 4) { bestmatches = 4; bestmatch = thisentry; } if (thisentry->flags & SC_SHOWME) printf("\n%s-\n%s-", thisentry->version, rev); if (strcmp(thisentry->version, rev)) { continue; } if (bestmatches < 5) { bestmatches = 5; bestmatch = thisentry; break; } } #endif /* NEW_SCSICONF */ if (bestmatch == (struct scsidevs *) 0) { bestmatch = &unknowndev; } return (bestmatch); } int scsi_externalize(struct scsi_link *sl, void *userp, size_t *lenp) { if(*lenp < sizeof *sl) return ENOMEM; *lenp -= sizeof *sl; return copyout(sl, userp, sizeof *sl); } /* XXX dufault@hda.com: * having this table of names conflicts with our decision * that all type information be contained in a type driver. */ static struct {char *name; char *long_name; } types[] = { { "sd", "direct" }, { "st", "sequential" }, { "prn", "printer" }, { "proc", "processor" }, { "worm", "worm" }, { "cd", "readonly" }, { "scan", "scanner" }, { "opmem", "optical" }, { "ch", "changer" }, { "comm", "communication" }, { "asc0", "ASC-0" }, { "asc1", "ASC-1" }, { "uk", "unknown" }, { "inval", "invalid" }, }; char * scsi_type_name(int type) { if (type >= 0 && type < (sizeof(types) / sizeof(types[0]))) return types[type].name; return "inval"; } char * scsi_type_long_name(int type) { if (type >= 0 && type < (sizeof(types) / sizeof(types[0]))) return types[type].long_name; return "invalid"; }