/* * 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. * * * PATCHES MAGIC LEVEL PATCH THAT GOT US HERE * -------------------- ----- ---------------------- * CURRENT PATCH LEVEL: 1 00098 * -------------------- ----- ---------------------- * * 16 Feb 93 Julian Elischer ADDED for SCSI system */ /* * Ported to run under 386BSD by Julian Elischer (julian@tfs.com) Sept 1992 */ /* $Log: * */ #include #include "st.h" #include "sd.h" #include "ch.h" #include "cd.h" #ifdef MACH #include #endif MACH #include #include #if !defined(OSF) && !defined(__386BSD__) #include "bll.h" #include "cals.h" #include "kil.h" #else #define NBLL 0 #define NCALS 0 #define NKIL 0 #endif /* !defined(OSF) && !defined(__386BSD__) */ #if NSD > 0 extern sdattach(); #endif NSD #if NST > 0 extern stattach(); #endif NST #if NCH > 0 extern chattach(); #endif NCH #if NCD > 0 extern cdattach(); #endif NCD #if NBLL > 0 extern bllattach(); #endif NBLL #if NCALS > 0 extern calsattach(); #endif NCALS #if NKIL > 0 extern kil_attach(); #endif NKIL /***************************************************************\ * The structure of pre-configured devices that might be turned * * off and therefore may not show up * \***************************************************************/ struct predefined { u_char scsibus; u_char dev; u_char lu; int (*attach_rtn)(); char *devname; char flags; } pd[] = { #ifdef EXAMPLE_PREDEFINE #if NSD > 0 {0,0,0,sdattach,"sd",0},/* define a disk at scsibus=0 dev=0 lu=0 */ #endif NSD #endif EXAMPLE_PREDEFINE {0,9,9} /*illegal dummy end entry */ }; /***************************************************************\ * The structure of known drivers for autoconfiguration * \***************************************************************/ static struct scsidevs { int type; int removable; char *manufacturer; char *model; char *version; int (*attach_rtn)(); char *devname; char flags; /* 1 show my comparisons during boot(debug) */ } #define SC_SHOWME 0x01 #define SC_ONE_LU 0x00 #define SC_MORE_LUS 0x02 knowndevs[] = { #if NSD > 0 { T_DIRECT,T_FIXED,"standard","any" ,"any",sdattach,"sd",SC_ONE_LU }, { T_DIRECT,T_FIXED,"MAXTOR ","XT-4170S " ,"B5A ",sdattach,"mx1",SC_ONE_LU }, #endif NSD #if NST > 0 { T_SEQUENTIAL,T_REMOV,"standard","any" ,"any",stattach,"st",SC_ONE_LU }, #endif NST #if NCALS > 0 { T_PROCESSOR,T_FIXED,"standard","any" ,"any",calsattach,"cals",SC_MORE_LUS }, #endif NCALS #if NCH > 0 { T_CHANGER,T_REMOV,"standard","any" ,"any",chattach,"ch",SC_ONE_LU }, #endif NCH #if NCD > 0 { T_READONLY,T_REMOV,"SONY ","CD-ROM CDU-8012 " ,"3.1a",cdattach,"cd",SC_ONE_LU }, #endif NCD #if NBLL > 0 { T_PROCESSOR,T_FIXED,"AEG ","READER " ,"V1.0",bllattach,"bll",SC_MORE_LUS }, #endif NBLL #if NKIL > 0 { T_SCANNER,T_FIXED,"KODAK ","IL Scanner 900 " ,"any",kil_attach,"kil",SC_ONE_LU }, #endif NKIL {0} }; /***************************************************************\ * Declarations * \***************************************************************/ struct predefined *scsi_get_predef(); struct scsidevs *scsi_probedev(); struct scsidevs *selectdev(); /* controls debug level within the scsi subsystem */ /* see scsiconf.h for values */ int scsi_debug = 0x0; int scsibus = 0x0; /* This is the Nth scsibus */ /***************************************************************\ * The routine called by the adapter boards to get all their * * devices configured in. * \***************************************************************/ scsi_attachdevs( unit, scsi_addr, scsi_switch) int unit,scsi_addr; struct scsi_switch *scsi_switch; { int targ,lun; struct scsidevs *bestmatch = (struct scsidevs *)0; struct predefined *predef; int maybe_more; #ifdef SCSI_DELAY #if SCSI_DELAY > 2 printf("waiting for scsi devices to settle\n"); #else SCSI_DELAY > 2 #define SCSI_DELAY 15 #endif SCSI_DELAY > 2 #else #define SCSI_DELAY 2 #endif SCSI_DELAY spinwait(1000 * SCSI_DELAY); targ = 0; while(targ < 8) { maybe_more = 0; /* by default only check 1 lun */ if (targ == scsi_addr) { targ++; continue; } lun = 0; while(lun < 8) { predef = scsi_get_predef(scsibus ,targ ,lun ,&maybe_more); bestmatch = scsi_probedev(unit ,targ ,lun ,scsi_switch ,&maybe_more); if((bestmatch) && (predef)) /* both exist */ { if(bestmatch->attach_rtn != predef->attach_rtn) { printf("Clash in found/expected devices\n"); printf("will link in FOUND\n"); } (*(bestmatch->attach_rtn))(unit, targ, lun, scsi_switch); } if((bestmatch) && (!predef)) /* just FOUND */ { (*(bestmatch->attach_rtn))(unit, targ, lun, scsi_switch); } if((!bestmatch) && (predef)) /* just predef */ { (*(predef->attach_rtn))(unit, targ, lun, scsi_switch); } if(!(maybe_more)) /* nothing suggests we'll find more */ { break; /* nothing here, skip to next targ */ } /* otherwise something says we should look further*/ lun++; } targ++; } #if NGENSCSI > 0 /***************************************************************\ * If available hook up the generic scsi driver, letting it * * know which target is US. (i.e. illegal or at least special) * \***************************************************************/ genscsi_attach(unit,scsi_addr,0,scsi_switch); #endif scsibus++; /* next time we are on the NEXT scsi bus */ } /***********************************************\ * given a target and lu, check if there is a * * predefined device for that address * \***********************************************/ struct predefined *scsi_get_predef(unit,target,lu,maybe_more) int unit,target,lu,*maybe_more; { int upto,numents; numents = (sizeof(pd)/sizeof(struct predefined)) - 1; for(upto = 0;upto < numents;upto++) { if(pd[upto].scsibus != unit) continue; if(pd[upto].dev != target) continue; if(pd[upto].lu != lu) continue; printf(" dev%d,lu%d: %s - PRECONFIGURED -\n" ,target ,lu ,pd[upto].devname); *maybe_more = pd[upto].flags & SC_MORE_LUS; return(&(pd[upto])); } return((struct predefined *)0); } /***********************************************\ * given a target and lu, ask the device what * * it is, and find the correct driver table * * entry. * \***********************************************/ struct scsidevs *scsi_probedev(unit,target,lu,scsi_switch, maybe_more) struct scsi_switch *scsi_switch; int unit,target,lu; int *maybe_more; { struct scsidevs *bestmatch = (struct scsidevs *)0; char *dtype=(char *)0,*desc; char *qtype; static struct scsi_inquiry_data inqbuf; int len,qualifier,type,remov; char manu[32]; char model[32]; char version[32]; bzero(&inqbuf,sizeof(inqbuf)); /***********************************************\ * Ask the device what it is * \***********************************************/ #ifdef DEBUG if((target == 0) && (lu == 0)) scsi_debug = 0xfff; else scsi_debug = 0; #endif DEBUG if(scsi_ready( unit, target, lu, scsi_switch, SCSI_NOSLEEP | SCSI_NOMASK) != COMPLETE) { return(struct scsidevs *)0; } if(scsi_inquire(unit, target, lu, scsi_switch, &inqbuf, SCSI_NOSLEEP | SCSI_NOMASK) != COMPLETE) { return(struct scsidevs *)0; } /***********************************************\ * note what BASIC type of device it is * \***********************************************/ if(scsi_debug & SHOWINQUIRY) { desc=(char *)&inqbuf; printf("inq: %x %x %x %x %x %x %x %x %x %x %x %x %x\n", desc[0], desc[1], desc[2], desc[3], desc[4], desc[5], desc[6], desc[7], desc[8], desc[9], desc[10], desc[11], desc[12]); } type = inqbuf.device_type; qualifier = inqbuf.device_qualifier; remov = inqbuf.removable; /* Check for a non-existent unit. If the device is returning * this much, then we must set the flag that has * the searcher keep looking on other luns. */ if (qualifier == 3 && type == T_NODEVICE) { *maybe_more = 1; return (struct scsidevs *)0; } /* Any device qualifier that has * the top bit set (qualifier&4 != 0) is vendor specific and * won't match in this switch. */ switch(qualifier) { case 0: qtype=""; break; case 1: qtype=", Unit not Connected!"; break; case 2: qtype=", Reserved Peripheral Qualifier!"; break; case 3: qtype=", The Target can't support this Unit!"; break; default: dtype="vendor specific"; qtype=""; *maybe_more = 1; break; } if (dtype == 0) switch(type) { case T_DIRECT: dtype="direct"; break; case T_SEQUENTIAL: dtype="sequential"; break; case T_PRINTER: dtype="printer"; break; case T_PROCESSOR: dtype="processor"; break; case T_READONLY: dtype="readonly"; break; case T_WORM: dtype="worm"; break; case T_SCANNER: dtype="scanner"; break; case T_OPTICAL: dtype="optical"; break; case T_CHANGER: dtype="changer"; break; case T_COMM: dtype="communication"; break; default: dtype="unknown"; break; } /***********************************************\ * Then if it's advanced enough, more detailed * * information * \***********************************************/ if(inqbuf.ansii_version > 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);manu[8]=0; strncpy(model,inqbuf.product,16);model[16]=0; strncpy(version,inqbuf.revision,4);version[4]=0; } else /***********************************************\ * If not advanced enough, use default values * \***********************************************/ { desc="early protocol device"; strncpy(manu,"unknown",8); strncpy(model,"unknown",16); strncpy(version,"????",4); } printf(" dev%d,lu%d: type %d:%d(%s%s),%s '%s%s%s' scsi%d\n" ,target ,lu ,qualifier,type ,dtype,qtype ,remov?"removable":"fixed" ,manu ,model ,version ,inqbuf.ansii_version ); /***********************************************\ * Try make as good a match as possible with * * available sub drivers * \***********************************************/ bestmatch = (selectdev(unit,target,lu,&scsi_switch, qualifier,type,remov,manu,model,version)); if((bestmatch) && (bestmatch->flags & SC_MORE_LUS)) { *maybe_more = 1; } return(bestmatch); } /***********************************************\ * Try make as good a match as possible with * * available sub drivers * \***********************************************/ struct scsidevs *selectdev(unit,target,lu,dvr_switch,qualifier,type,remov,manu,model,rev) int unit,target,lu; struct scsi_switch *dvr_switch; int qualifier,type,remov; char *manu,*model,*rev; { int numents = (sizeof(knowndevs)/sizeof(struct scsidevs)) - 1; int count = 0; int bestmatches = 0; struct scsidevs *bestmatch = (struct scsidevs *)0; struct scsidevs *thisentry = knowndevs; type |= (qualifier << 5); 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; } } if (bestmatch == (struct scsidevs *)0) printf(" No explicit device driver match for \"%s %s\".\n", manu, model); return(bestmatch); } static int recurse = 0; /***********************************************\ * Do a scsi operation asking a device if it is * * ready. Use the scsi_cmd routine in the switch * * table. * \***********************************************/ scsi_ready(unit,target,lu,scsi_switch, flags) struct scsi_switch *scsi_switch; { struct scsi_test_unit_ready scsi_cmd; struct scsi_xfer scsi_xfer; volatile int rval; int key; bzero(&scsi_cmd, sizeof(scsi_cmd)); bzero(&scsi_xfer, sizeof(scsi_xfer)); scsi_cmd.op_code = TEST_UNIT_READY; scsi_xfer.flags=flags | INUSE; scsi_xfer.adapter=unit; scsi_xfer.targ=target; scsi_xfer.lu=lu; scsi_xfer.cmd=(struct scsi_generic *)&scsi_cmd; scsi_xfer.retries=8; scsi_xfer.timeout=10000; scsi_xfer.cmdlen=sizeof(scsi_cmd); scsi_xfer.data=0; scsi_xfer.datalen=0; scsi_xfer.resid=0; scsi_xfer.when_done=0; scsi_xfer.done_arg=0; retry: scsi_xfer.error=0; /*******************************************************\ * do not use interrupts * \*******************************************************/ rval = (*(scsi_switch->scsi_cmd))(&scsi_xfer); if (rval != COMPLETE) { if(scsi_debug) { printf("scsi error, rval = 0x%x\n",rval); printf("code from driver: 0x%x\n",scsi_xfer.error); } switch(scsi_xfer.error) { case XS_SENSE: /*******************************************************\ * Any sense value is illegal except UNIT ATTENTION * * In which case we need to check again to get the * * correct response. * *( especially exabytes) * \*******************************************************/ if(scsi_xfer.sense.error_class == 7 ) { key = scsi_xfer.sense.ext.extended.sense_key ; switch(key) { case 2: /* not ready BUT PRESENT! */ return(COMPLETE); case 6: spinwait(1000); if(scsi_xfer.retries--) { scsi_xfer.flags &= ~ITSDONE; goto retry; } return(COMPLETE); default: if(scsi_debug) printf("%d:%d,key=%x.", target,lu,key); } } return(HAD_ERROR); case XS_BUSY: spinwait(1000); if(scsi_xfer.retries--) { scsi_xfer.flags &= ~ITSDONE; goto retry; } return(COMPLETE); /* it's busy so it's there */ case XS_TIMEOUT: default: return(HAD_ERROR); } } return(COMPLETE); } /***********************************************\ * Do a scsi operation asking a device what it is* * Use the scsi_cmd routine in the switch table. * \***********************************************/ scsi_inquire(unit,target,lu,scsi_switch,inqbuf, flags) struct scsi_switch *scsi_switch; u_char *inqbuf; { struct scsi_inquiry scsi_cmd; struct scsi_xfer scsi_xfer; volatile int rval; bzero(&scsi_cmd, sizeof(scsi_cmd)); bzero(&scsi_xfer, sizeof(scsi_xfer)); scsi_cmd.op_code = INQUIRY; scsi_cmd.length = sizeof(struct scsi_inquiry_data); scsi_xfer.flags=flags | SCSI_DATA_IN | INUSE; scsi_xfer.adapter=unit; scsi_xfer.targ=target; scsi_xfer.lu=lu; scsi_xfer.retries=8; scsi_xfer.timeout=10000; scsi_xfer.cmd=(struct scsi_generic *)&scsi_cmd; scsi_xfer.cmdlen= sizeof(struct scsi_inquiry); scsi_xfer.data=inqbuf; scsi_xfer.datalen=sizeof(struct scsi_inquiry_data); scsi_xfer.resid=sizeof(struct scsi_inquiry_data); scsi_xfer.when_done=0; scsi_xfer.done_arg=0; retry: scsi_xfer.error=0; /*******************************************************\ * do not use interrupts * \*******************************************************/ if ((*(scsi_switch->scsi_cmd))(&scsi_xfer) != COMPLETE) { if(scsi_debug) printf("inquiry had error(0x%x) ",scsi_xfer.error); switch(scsi_xfer.error) { case XS_NOERROR: break; case XS_SENSE: /*******************************************************\ * Any sense value is illegal except UNIT ATTENTION * * In which case we need to check again to get the * * correct response. * *( especially exabytes) * \*******************************************************/ if((scsi_xfer.sense.error_class == 7 ) && (scsi_xfer.sense.ext.extended.sense_key == 6)) { /* it's changed so it's there */ spinwait(1000); { if(scsi_xfer.retries--) { scsi_xfer.flags &= ~ITSDONE; goto retry; } } return( COMPLETE); } return(HAD_ERROR); case XS_BUSY: spinwait(1000); if(scsi_xfer.retries--) { scsi_xfer.flags &= ~ITSDONE; goto retry; } case XS_TIMEOUT: default: return(HAD_ERROR); } } return(COMPLETE); } /***********************************************\ * Utility routines often used in SCSI stuff * \***********************************************/ /***********************************************\ * convert a physical address to 3 bytes, * * MSB at the lowest address, * * LSB at the highest. * \***********************************************/ lto3b(val, bytes) u_char *bytes; { *bytes++ = (val&0xff0000)>>16; *bytes++ = (val&0xff00)>>8; *bytes = val&0xff; } /***********************************************\ * The reverse of lto3b * \***********************************************/ _3btol(bytes) u_char *bytes; { int rc; rc = (*bytes++ << 16); rc += (*bytes++ << 8); rc += *bytes; return(rc); }