ref: 41d1a883e53baf66918c35cb0e84eab899a16259
dir: /sys/src/cmd/scuzz/scuzz.c/
#include <u.h> #include <libc.h> #include <bio.h> #include "scsireq.h" enum { /* fundamental constants/defaults */ /* * default & maximum `maximum i/o size'; overridden by -m. * limits kernel memory consumption. * 240K is exabyte maximum block size. */ MaxIOsize = 240*1024, }; #define MIN(a, b) ((a) < (b) ? (a): (b)) static char rwbuf[MaxIOsize]; static int verbose = 1; Biobuf bin, bout; long maxiosize = MaxIOsize; int exabyte = 0; int force6bytecmds = 0; typedef struct { char *name; long (*f)(ScsiReq *, int, char *[]); int open; char *help; } ScsiCmd; static ScsiCmd scsicmd[]; static vlong vlmin(vlong a, vlong b) { if (a < b) return a; else return b; } static long cmdready(ScsiReq *rp, int argc, char *argv[]) { USED(argc, argv); return SRready(rp); } static long cmdrewind(ScsiReq *rp, int argc, char *argv[]) { USED(argc, argv); return SRrewind(rp); } static long cmdreqsense(ScsiReq *rp, int argc, char *argv[]) { long nbytes; USED(argc, argv); if((nbytes = SRreqsense(rp)) != -1) makesense(rp); return nbytes; } static long cmdformat(ScsiReq *rp, int argc, char *argv[]) { USED(argc, argv); return SRformat(rp); } static long cmdrblimits(ScsiReq *rp, int argc, char *argv[]) { uchar l[6]; long n; USED(argc, argv); if((n = SRrblimits(rp, l)) == -1) return -1; Bprint(&bout, " %2.2uX %2.2uX %2.2uX %2.2uX %2.2uX %2.2uX\n", l[0], l[1], l[2], l[3], l[4], l[5]); return n; } static int mkfile(char *file, int omode, int *pid) { int fd[2]; if(*file != '|'){ *pid = -1; if(omode == OWRITE) return create(file, OWRITE, 0666); else if(omode == OREAD) return open(file, OREAD); return -1; } file++; if(*file == 0 || pipe(fd) == -1) return -1; if((*pid = fork()) == -1){ close(fd[0]); close(fd[1]); return -1; } if(*pid == 0){ switch(omode){ case OREAD: dup(fd[0], 1); break; case OWRITE: dup(fd[0], 0); break; } close(fd[0]); close(fd[1]); execl("/bin/rc", "rc", "-c", file, nil); exits("exec"); } close(fd[0]); return fd[1]; } int waitfor(int pid) { int msg; Waitmsg *w; while((w = wait()) != nil){ if(w->pid != pid){ free(w); continue; } msg = (w->msg[0] != '\0'); free(w); return msg; } return -1; } static long cmdread(ScsiReq *rp, int argc, char *argv[]) { long n, iosize, prevsize = 0; vlong nbytes, total; int fd, pid; char *p; iosize = maxiosize; nbytes = ~0ULL >> 1; switch(argc){ default: rp->status = Status_BADARG; return -1; case 2: nbytes = strtoll(argv[1], &p, 0); if(nbytes == 0 && p == argv[1]){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 1: if((fd = mkfile(argv[0], OWRITE, &pid)) == -1){ rp->status = Status_BADARG; return -1; } break; } print("device native block size=%lud\n", rp->lbsize); total = 0; while(nbytes){ n = vlmin(nbytes, iosize); if((n = SRread(rp, rwbuf, n)) == -1){ if(total == 0) total = -1; break; } if (n == 0) break; if (prevsize != n) { print("tape block size=%ld\n", n); prevsize = n; } if(write(fd, rwbuf, n) != n){ if(total == 0) total = -1; if(rp->status == STok) rp->status = Status_SW; break; } nbytes -= n; total += n; } close(fd); if(pid >= 0 && waitfor(pid)){ rp->status = Status_SW; return -1; } return total; } static long cmdwrite(ScsiReq *rp, int argc, char *argv[]) { long n, prevsize = 0; vlong nbytes, total; int fd, pid; char *p; nbytes = ~0ULL >> 1; switch(argc){ default: rp->status = Status_BADARG; return -1; case 2: nbytes = strtoll(argv[1], &p, 0); if(nbytes == 0 && p == argv[1]){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 1: if((fd = mkfile(argv[0], OREAD, &pid)) == -1){ rp->status = Status_BADARG; return -1; } break; } total = 0; while(nbytes){ n = vlmin(nbytes, maxiosize); if((n = read(fd, rwbuf, n)) == -1){ if(total == 0) total = -1; break; } if (n == 0) break; if (prevsize != n) { print("tape block size=%ld\n", n); prevsize = n; } if(SRwrite(rp, rwbuf, n) != n){ if(total == 0) total = -1; if(rp->status == STok) rp->status = Status_SW; break; } nbytes -= n; total += n; } close(fd); if(pid >= 0 && waitfor(pid)){ rp->status = Status_SW; return -1; } return total; } static long cmdseek(ScsiReq *rp, int argc, char *argv[]) { char *p; long offset; int type; type = 0; switch(argc){ default: rp->status = Status_BADARG; return -1; case 2: if((type = strtol(argv[1], &p, 0)) == 0 && p == argv[1]){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 1: if((offset = strtol(argv[0], &p, 0)) == 0 && p == argv[0]){ rp->status = Status_BADARG; return -1; } break; } return SRseek(rp, offset, type); } static long cmdfilemark(ScsiReq *rp, int argc, char *argv[]) { char *p; ulong howmany; howmany = 1; if(argc && (howmany = strtoul(argv[0], &p, 0)) == 0 && p == argv[0]){ rp->status = Status_BADARG; return -1; } return SRfilemark(rp, howmany); } static long cmdspace(ScsiReq *rp, int argc, char *argv[]) { uchar code; long howmany; char option, *p; code = 0x00; howmany = 1; while(argc && (*argv)[0] == '-'){ while(option = *++argv[0]){ switch(option){ case '-': break; case 'b': code = 0x00; break; case 'f': code = 0x01; break; default: rp->status = Status_BADARG; return -1; } break; } argc--; argv++; if(option == '-') break; } if(argc && ((howmany = strtol(argv[0], &p, 0)) == 0 && p == argv[0])){ rp->status = Status_BADARG; return -1; } return SRspace(rp, code, howmany); } static long cmdinquiry(ScsiReq *rp, int argc, char *argv[]) { long status; int i, n; uchar *p; USED(argc, argv); if((status = SRinquiry(rp)) != -1){ n = rp->inquiry[4]+4; for(i = 0; i < MIN(8, n); i++) Bprint(&bout, " %2.2uX", rp->inquiry[i]); p = &rp->inquiry[8]; n = MIN(n, sizeof(rp->inquiry)-8); while(n && (*p == ' ' || *p == '\t' || *p == '\n')){ n--; p++; } Bprint(&bout, "\t%.*s\n", n, (char*)p); } return status; } static long cmdmodeselect6(ScsiReq *rp, int argc, char *argv[]) { uchar list[MaxDirData]; long nbytes, ul; char *p; memset(list, 0, sizeof list); for(nbytes = 0; argc; argc--, argv++, nbytes++){ if((ul = strtoul(argv[0], &p, 0)) == 0 && p == argv[0]){ rp->status = Status_BADARG; return -1; } list[nbytes] = ul; } if(!(rp->flags & Finqok) && SRinquiry(rp) == -1) Bprint(&bout, "warning: couldn't determine whether SCSI-1/SCSI-2 mode"); return SRmodeselect6(rp, list, nbytes); } static long cmdmodeselect10(ScsiReq *rp, int argc, char *argv[]) { uchar list[MaxDirData]; long nbytes, ul; char *p; memset(list, 0, sizeof list); for(nbytes = 0; argc; argc--, argv++, nbytes++){ if((ul = strtoul(argv[0], &p, 0)) == 0 && p == argv[0]){ rp->status = Status_BADARG; return -1; } list[nbytes] = ul; } if(!(rp->flags & Finqok) && SRinquiry(rp) == -1) Bprint(&bout, "warning: couldn't determine whether SCSI-1/SCSI-2 mode"); return SRmodeselect10(rp, list, nbytes); } static long cmdmodesense6(ScsiReq *rp, int argc, char *argv[]) { uchar list[MaxDirData], *lp, page; long i, n, nbytes, status; char *p; nbytes = sizeof list; switch(argc){ default: rp->status = Status_BADARG; return -1; case 2: if((nbytes = strtoul(argv[1], &p, 0)) == 0 && p == argv[1]){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 1: if((page = strtoul(argv[0], &p, 0)) == 0 && p == argv[0]){ rp->status = Status_BADARG; return -1; } break; case 0: page = Allmodepages; break; } if((status = SRmodesense6(rp, page, list, nbytes)) == -1) return -1; lp = list; nbytes = list[0]; Bprint(&bout, " Header\n "); for(i = 0; i < 4; i++){ /* header */ Bprint(&bout, " %2.2uX", *lp); lp++; } Bputc(&bout, '\n'); if(list[3]){ /* block descriptors */ for(n = 0; n < list[3]/8; n++){ Bprint(&bout, " Block %ld\n ", n); for(i = 0; i < 8; i++) Bprint(&bout, " %2.2uX", lp[i]); Bprint(&bout, " (density %2.2uX", lp[0]); Bprint(&bout, " blocks %d", (lp[1]<<16)|(lp[2]<<8)|lp[3]); Bprint(&bout, " length %d)", (lp[5]<<16)|(lp[6]<<8)|lp[7]); lp += 8; nbytes -= 8; Bputc(&bout, '\n'); } } while(nbytes > 0){ /* pages */ i = *(lp+1); nbytes -= i+2; Bprint(&bout, " Page %2.2uX %d\n ", *lp & 0x3F, *(lp+1)); lp += 2; for(n = 0; n < i; n++){ if(n && ((n & 0x0F) == 0)) Bprint(&bout, "\n "); Bprint(&bout, " %2.2uX", *lp); lp++; } if(n && (n & 0x0F)) Bputc(&bout, '\n'); } return status; } static long cmdmodesense10(ScsiReq *rp, int argc, char *argv[]) { uchar *list, *lp, page; long blen, i, n, nbytes, status; char *p; nbytes = MaxDirData; switch(argc){ default: rp->status = Status_BADARG; return -1; case 2: if((nbytes = strtoul(argv[1], &p, 0)) == 0 && p == argv[1]){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 1: if((page = strtoul(argv[0], &p, 0)) == 0 && p == argv[0]){ rp->status = Status_BADARG; return -1; } break; case 0: page = Allmodepages; break; } list = malloc(nbytes); if(list == 0){ rp->status = STnomem; return -1; } if((status = SRmodesense10(rp, page, list, nbytes)) == -1) return -1; lp = list; nbytes = ((list[0]<<8)|list[1]); Bprint(&bout, " Header\n "); for(i = 0; i < 8; i++){ /* header */ Bprint(&bout, " %2.2uX", *lp); lp++; } Bputc(&bout, '\n'); blen = (list[6]<<8)|list[7]; if(blen){ /* block descriptors */ for(n = 0; n < blen/8; n++){ Bprint(&bout, " Block %ld\n ", n); for(i = 0; i < 8; i++) Bprint(&bout, " %2.2uX", lp[i]); Bprint(&bout, " (density %2.2uX", lp[0]); Bprint(&bout, " blocks %d", (lp[1]<<16)|(lp[2]<<8)|lp[3]); Bprint(&bout, " length %d)", (lp[5]<<16)|(lp[6]<<8)|lp[7]); lp += 8; nbytes -= 8; Bputc(&bout, '\n'); } } /* * Special for ATA drives, page 0 is the drive info in 16-bit * chunks, little-endian, 256 in total. No decoding for now. */ if(page == 0){ for(n = 0; n < nbytes; n += 2){ if(n && ((n & 0x1F) == 0)) Bprint(&bout, "\n"); Bprint(&bout, " %4.4uX", (*(lp+1)<<8)|*lp); lp += 2; } Bputc(&bout, '\n'); } else while(nbytes > 0){ /* pages */ i = *(lp+1); nbytes -= i+2; Bprint(&bout, " Page %2.2uX %d\n ", *lp & 0x3F, lp[1]); lp += 2; for(n = 0; n < i; n++){ if(n && ((n & 0x0F) == 0)) Bprint(&bout, "\n "); Bprint(&bout, " %2.2uX", *lp); lp++; } if(n && (n & 0x0F)) Bputc(&bout, '\n'); } free(list); return status; } static long start(ScsiReq *rp, int argc, char *argv[], uchar code) { char *p; if(argc && (code = strtoul(argv[0], &p, 0)) == 0 && p == argv[0]){ rp->status = Status_BADARG; return -1; } return SRstart(rp, code); } static long cmdstart(ScsiReq *rp, int argc, char *argv[]) { return start(rp, argc, argv, 1); } static long cmdstop(ScsiReq *rp, int argc, char *argv[]) { return start(rp, argc, argv, 0); } static long cmdeject(ScsiReq *rp, int argc, char *argv[]) { return start(rp, argc, argv, 2); } static long cmdingest(ScsiReq *rp, int argc, char *argv[]) { return start(rp, argc, argv, 3); } static long cmdcapacity(ScsiReq *rp, int argc, char *argv[]) { uchar d[8]; long n; USED(argc, argv); if((n = SRrcapacity(rp, d)) == -1) return -1; Bprint(&bout, " %ud %ud\n", d[0]<<24|d[1]<<16|d[2]<<8|d[3], d[4]<<24|d[5]<<16|d[6]<<8|d[7]); return n; } static long cmdblank(ScsiReq *rp, int argc, char *argv[]) { uchar type, track; char *sp; type = track = 0; switch(argc){ default: rp->status = Status_BADARG; return -1; case 2: if((type = strtoul(argv[1], &sp, 0)) == 0 && sp == argv[1]){ rp->status = Status_BADARG; return -1; } if(type > 6){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 1: if((track = strtoul(argv[0], &sp, 0)) == 0 && sp == argv[0]){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 0: break; } return SRblank(rp, type, track); } static long cmdsynccache(ScsiReq *rp, int argc, char *argv[]) { USED(argc, argv); return SRsynccache(rp); } static long cmdrtoc(ScsiReq *rp, int argc, char *argv[]) { uchar d[100*8+4], format, track, *p; char *sp; long n, nbytes; int tdl; format = track = 0; switch(argc){ default: rp->status = Status_BADARG; return -1; case 2: if((format = strtoul(argv[1], &sp, 0)) == 0 && sp == argv[1]){ rp->status = Status_BADARG; return -1; } if(format > 4){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 1: if((track = strtoul(argv[0], &sp, 0)) == 0 && sp == argv[0]){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 0: break; } if((nbytes = SRTOC(rp, d, sizeof d, format, track)) == -1){ if(rp->status == STok) Bprint(&bout, "\t(probably empty)\n"); return -1; } tdl = (d[0]<<8)|d[1]; switch(format){ case 0: Bprint(&bout, "\ttoc/pma data length: 0x%uX\n", tdl); Bprint(&bout, "\tfirst track number: %d\n", d[2]); Bprint(&bout, "\tlast track number: %d\n", d[3]); for(p = &d[4], n = tdl-2; n; n -= 8, p += 8){ Bprint(&bout, "\ttrack number: 0x%2.2uX\n", p[2]); Bprint(&bout, "\t\tcontrol: 0x%2.2uX\n", p[1] & 0x0F); Bprint(&bout, "\t\tblock address: 0x%uX\n", (p[4]<<24)|(p[5]<<16)|(p[6]<<8)|p[7]); } break; case 1: Bprint(&bout, "\tsessions data length: 0x%uX\n", tdl); Bprint(&bout, "\tnumber of finished sessions: %d\n", d[2]); Bprint(&bout, "\tunfinished session number: %d\n", d[3]); for(p = &d[4], n = tdl-2; n; n -= 8, p += 8){ Bprint(&bout, "\tsession number: 0x%2.2uX\n", p[0]); Bprint(&bout, "\t\tfirst track number in session: 0x%2.2uX\n", p[2]); Bprint(&bout, "\t\tlogical start address: 0x%uX\n", (p[5]<<16)|(p[6]<<8)|p[7]); } break; case 2: Bprint(&bout, "\tfull TOC data length: 0x%uX\n", tdl); Bprint(&bout, "\tnumber of finished sessions: %d\n", d[2]); Bprint(&bout, "\tunfinished session number: %d\n", d[3]); for(p = &d[4], n = tdl-2; n > 0; n -= 11, p += 11){ Bprint(&bout, "\tsession number: 0x%2.2uX\n", p[0]); Bprint(&bout, "\t\tcontrol: 0x%2.2uX\n", p[1] & 0x0F); Bprint(&bout, "\t\tADR: 0x%2.2uX\n", (p[1]>>4) & 0x0F); Bprint(&bout, "\t\tTNO: 0x%2.2uX\n", p[2]); Bprint(&bout, "\t\tPOINT: 0x%2.2uX\n", p[3]); Bprint(&bout, "\t\tMin: 0x%2.2uX\n", p[4]); Bprint(&bout, "\t\tSec: 0x%2.2uX\n", p[5]); Bprint(&bout, "\t\tFrame: 0x%2.2uX\n", p[6]); Bprint(&bout, "\t\tZero: 0x%2.2uX\n", p[7]); Bprint(&bout, "\t\tPMIN: 0x%2.2uX\n", p[8]); Bprint(&bout, "\t\tPSEC: 0x%2.2uX\n", p[9]); Bprint(&bout, "\t\tPFRAME: 0x%2.2uX\n", p[10]); } break; case 3: Bprint(&bout, "\tPMA data length: 0x%uX\n", tdl); for(p = &d[4], n = tdl-2; n > 0; n -= 11, p += 11){ Bprint(&bout, "\t\tcontrol: 0x%2.2uX\n", p[1] & 0x0F); Bprint(&bout, "\t\tADR: 0x%2.2uX\n", (p[1]>>4) & 0x0F); Bprint(&bout, "\t\tTNO: 0x%2.2uX\n", p[2]); Bprint(&bout, "\t\tPOINT: 0x%2.2uX\n", p[3]); Bprint(&bout, "\t\tMin: 0x%2.2uX\n", p[4]); Bprint(&bout, "\t\tSec: 0x%2.2uX\n", p[5]); Bprint(&bout, "\t\tFrame: 0x%2.2uX\n", p[6]); Bprint(&bout, "\t\tZero: 0x%2.2uX\n", p[7]); Bprint(&bout, "\t\tPMIN: 0x%2.2uX\n", p[8]); Bprint(&bout, "\t\tPSEC: 0x%2.2uX\n", p[9]); Bprint(&bout, "\t\tPFRAME: 0x%2.2uX\n", p[10]); } break; case 4: Bprint(&bout, "\tATIP data length: 0x%uX\n", tdl); break; } for(n = 0; n < nbytes; n++){ if(n && ((n & 0x0F) == 0)) Bprint(&bout, "\n"); Bprint(&bout, " %2.2uX", d[n]); } if(n && (n & 0x0F)) Bputc(&bout, '\n'); return nbytes; } static long cmdrdiscinfo(ScsiReq *rp, int argc, char*[]) { uchar d[MaxDirData]; int dl; long n, nbytes; switch(argc){ default: rp->status = Status_BADARG; return -1; case 0: break; } if((nbytes = SRrdiscinfo(rp, d, sizeof d)) == -1) return -1; dl = (d[0]<<8)|d[1]; Bprint(&bout, "\tdata length: 0x%uX\n", dl); Bprint(&bout, "\tinfo[2] 0x%2.2uX\n", d[2]); switch(d[2] & 0x03){ case 0: Bprint(&bout, "\t\tEmpty\n"); break; case 1: Bprint(&bout, "\t\tIncomplete disc (Appendable)\n"); break; case 2: Bprint(&bout, "\t\tComplete (CD-ROM or last session is closed and has no next session pointer)\n"); break; case 3: Bprint(&bout, "\t\tReserved\n"); break; } switch((d[2]>>2) & 0x03){ case 0: Bprint(&bout, "\t\tEmpty Session\n"); break; case 1: Bprint(&bout, "\t\tIncomplete Session\n"); break; case 2: Bprint(&bout, "\t\tReserved\n"); break; case 3: Bprint(&bout, "\t\tComplete Session (only possible when disc Status is Complete)\n"); break; } if(d[2] & 0x10) Bprint(&bout, "\t\tErasable\n"); Bprint(&bout, "\tNumber of First Track on Disc %ud\n", d[3]); Bprint(&bout, "\tNumber of Sessions %ud\n", d[4]); Bprint(&bout, "\tFirst Track Number in Last Session %ud\n", d[5]); Bprint(&bout, "\tLast Track Number in Last Session %ud\n", d[6]); Bprint(&bout, "\tinfo[7] 0x%2.2uX\n", d[7]); if(d[7] & 0x20) Bprint(&bout, "\t\tUnrestricted Use Disc\n"); if(d[7] & 0x40) Bprint(&bout, "\t\tDisc Bar Code Valid\n"); if(d[7] & 0x80) Bprint(&bout, "\t\tDisc ID Valid\n"); Bprint(&bout, "\tinfo[8] 0x%2.2uX\n", d[8]); switch(d[8]){ case 0x00: Bprint(&bout, "\t\tCD-DA or CD-ROM Disc\n"); break; case 0x10: Bprint(&bout, "\t\tCD-I Disc\n"); break; case 0x20: Bprint(&bout, "\t\tCD-ROM XA Disc\n"); break; case 0xFF: Bprint(&bout, "\t\tUndefined\n"); break; default: Bprint(&bout, "\t\tReserved\n"); break; } Bprint(&bout, "\tLast Session lead-in Start Time M/S/F: 0x%2.2uX/0x%2.2uX/0x%2.2uX\n", d[17], d[18], d[19]); Bprint(&bout, "\tLast Possible Start Time for Start of lead-out M/S/F: 0x%2.2uX/0x%2.2uX/0x%2.2uX\n", d[21], d[22], d[23]); for(n = 0; n < nbytes; n++){ if(n && ((n & 0x0F) == 0)) Bprint(&bout, "\n"); Bprint(&bout, " %2.2uX", d[n]); } if(n && (n & 0x0F)) Bputc(&bout, '\n'); return nbytes; } static long cmdrtrackinfo(ScsiReq *rp, int argc, char *argv[]) { uchar d[MaxDirData], track; char *sp; long n, nbytes; int dl; track = 0; switch(argc){ default: rp->status = Status_BADARG; return -1; case 1: if((track = strtoul(argv[0], &sp, 0)) == 0 && sp == argv[0]){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 0: break; } if((nbytes = SRrtrackinfo(rp, d, sizeof d, track)) == -1) return -1; dl = (d[0]<<8)|d[1]; Bprint(&bout, "\tdata length: 0x%uX\n", dl); Bprint(&bout, "\Track Number %d\n", d[2]); Bprint(&bout, "\Session Number %d\n", d[3]); Bprint(&bout, "\tinfo[4] 0x%2.2uX\n", d[5]); Bprint(&bout, "\t\tTrack Mode 0x%2.2uX: ", d[5] & 0x0F); switch(d[5] & 0x0F){ case 0x00: case 0x02: Bprint(&bout, "2 audio channels without pre-emphasis\n"); break; case 0x01: case 0x03: Bprint(&bout, "2 audio channels with pre-emphasis of 50/15µs\n"); break; case 0x08: case 0x0A: Bprint(&bout, "audio channels without pre-emphasis (reserved in CD-R/RW)\n"); break; case 0x09: case 0x0B: Bprint(&bout, "audio channels with pre-emphasis of 50/15µs (reserved in CD-R/RW)\n"); break; case 0x04: case 0x06: Bprint(&bout, "Data track, recorded uninterrupted\n"); break; case 0x05: case 0x07: Bprint(&bout, "Data track, recorded incremental\n"); break; default: Bprint(&bout, "(mode unknown)\n"); break; } if(d[5] & 0x10) Bprint(&bout, "\t\tCopy\n"); if(d[5] & 0x20) Bprint(&bout, "\t\tDamage\n"); Bprint(&bout, "\tinfo[6] 0x%2.2uX\n", d[6]); Bprint(&bout, "\t\tData Mode 0x%2.2uX: ", d[6] & 0x0F); switch(d[6] & 0x0F){ case 0x01: Bprint(&bout, "Mode 1 (ISO/IEC 10149)\n"); break; case 0x02: Bprint(&bout, "Mode 2 (ISO/IEC 10149 or CD-ROM XA)\n"); break; case 0x0F: Bprint(&bout, "Data Block Type unknown (no track descriptor block)\n"); break; default: Bprint(&bout, "(Reserved)\n"); break; } if(d[6] & 0x10) Bprint(&bout, "\t\tFP\n"); if(d[6] & 0x20) Bprint(&bout, "\t\tPacket\n"); if(d[6] & 0x40) Bprint(&bout, "\t\tBlank\n"); if(d[6] & 0x80) Bprint(&bout, "\t\tRT\n"); Bprint(&bout, "\tTrack Start Address 0x%8.8uX\n", (d[8]<<24)|(d[9]<<16)|(d[10]<<8)|d[11]); if(d[7] & 0x01) Bprint(&bout, "\tNext Writeable Address 0x%8.8uX\n", (d[12]<<24)|(d[13]<<16)|(d[14]<<8)|d[15]); Bprint(&bout, "\tFree Blocks 0x%8.8uX\n", (d[16]<<24)|(d[17]<<16)|(d[18]<<8)|d[19]); if((d[6] & 0x30) == 0x30) Bprint(&bout, "\tFixed Packet Size 0x%8.8uX\n", (d[20]<<24)|(d[21]<<16)|(d[22]<<8)|d[23]); Bprint(&bout, "\tTrack Size 0x%8.8uX\n", (d[24]<<24)|(d[25]<<16)|(d[26]<<8)|d[27]); for(n = 0; n < nbytes; n++){ if(n && ((n & 0x0F) == 0)) Bprint(&bout, "\n"); Bprint(&bout, " %2.2uX", d[n]); } if(n && (n & 0x0F)) Bputc(&bout, '\n'); return nbytes; } static long cmdcdpause(ScsiReq *rp, int argc, char *argv[]) { USED(argc, argv); return SRcdpause(rp, 0); } static long cmdcdresume(ScsiReq *rp, int argc, char *argv[]) { USED(argc, argv); return SRcdpause(rp, 1); } static long cmdcdstop(ScsiReq *rp, int argc, char *argv[]) { USED(argc, argv); return SRcdstop(rp); } static long cmdcdplay(ScsiReq *rp, int argc, char *argv[]) { long length, start; char *sp; int raw; raw = 0; start = 0; if(argc && strcmp("-r", argv[0]) == 0){ raw = 1; argc--, argv++; } length = 0xFFFFFFFF; switch(argc){ default: rp->status = Status_BADARG; return -1; case 2: if(!raw || ((length = strtol(argv[1], &sp, 0)) == 0 && sp == argv[1])){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 1: if((start = strtol(argv[0], &sp, 0)) == 0 && sp == argv[0]){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 0: break; } return SRcdplay(rp, raw, start, length); } static long cmdcdload(ScsiReq *rp, int argc, char *argv[]) { char *p; ulong slot; slot = 0; if(argc && (slot = strtoul(argv[0], &p, 0)) == 0 && p == argv[0]){ rp->status = Status_BADARG; return -1; } return SRcdload(rp, 1, slot); } static long cmdcdunload(ScsiReq *rp, int argc, char *argv[]) { char *p; ulong slot; slot = 0; if(argc && (slot = strtoul(argv[0], &p, 0)) == 0 && p == argv[0]){ rp->status = Status_BADARG; return -1; } return SRcdload(rp, 0, slot); } static long cmdcdstatus(ScsiReq *rp, int argc, char *argv[]) { uchar *list, *lp; long nbytes, status; int i, slots; USED(argc, argv); nbytes = 4096; list = malloc(nbytes); if(list == 0){ rp->status = STnomem; return -1; } status = SRcdstatus(rp, list, nbytes); if(status == -1){ free(list); return -1; } lp = list; Bprint(&bout, " Header\n "); for(i = 0; i < 8; i++){ /* header */ Bprint(&bout, " %2.2uX", *lp); lp++; } Bputc(&bout, '\n'); slots = ((list[6]<<8)|list[7])/4; Bprint(&bout, " Slots\n "); while(slots--){ Bprint(&bout, " %2.2uX %2.2uX %2.2uX %2.2uX\n ", *lp, *(lp+1), *(lp+2), *(lp+3)); lp += 4; } free(list); return status; } static long cmdgetconf(ScsiReq *rp, int argc, char *argv[]) { uchar *list; long nbytes, status; USED(argc, argv); nbytes = 4096; list = malloc(nbytes); if(list == 0){ rp->status = STnomem; return -1; } status = SRgetconf(rp, list, nbytes); if(status == -1){ free(list); return -1; } /* to be done... */ free(list); return status; } static long cmdfwaddr(ScsiReq *rp, int argc, char *argv[]) { uchar d[MaxDirData], npa, track, mode; long n; char *p; npa = mode = track = 0; switch(argc){ default: rp->status = Status_BADARG; return -1; case 3: if((npa = strtoul(argv[1], &p, 0)) == 0 && p == argv[1]){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 2: if((mode = strtoul(argv[1], &p, 0)) == 0 && p == argv[1]){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 1: if((track = strtoul(argv[0], &p, 0)) == 0 && p == argv[0]){ rp->status = Status_BADARG; return -1; } break; case 0: break; } if((n = SRfwaddr(rp, track, mode, npa, d)) == -1) return -1; Bprint(&bout, "%ud %ud\n", d[0], (d[1]<<24)|(d[2]<<16)|(d[3]<<8)|d[4]); return n; } static long cmdtreserve(ScsiReq *rp, int argc, char *argv[]) { long nbytes; char *p; if(argc != 1 || ((nbytes = strtoul(argv[0], &p, 0)) == 0 && p == argv[0])){ rp->status = Status_BADARG; return -1; } return SRtreserve(rp, nbytes); } static long cmdtrackinfo(ScsiReq *rp, int argc, char *argv[]) { uchar d[MaxDirData], track; long n; ulong ul; char *p; track = 0; if(argc && (track = strtoul(argv[0], &p, 0)) == 0 && p == argv[0]){ rp->status = Status_BADARG; return -1; } if((n = SRtinfo(rp, track, d)) == -1) return -1; Bprint(&bout, "buffer length: 0x%uX\n", d[0]); Bprint(&bout, "number of tracks: 0x%uX\n", d[1]); ul = (d[2]<<24)|(d[3]<<16)|(d[4]<<8)|d[5]; Bprint(&bout, "start address: 0x%luX\n", ul); ul = (d[6]<<24)|(d[7]<<16)|(d[8]<<8)|d[9]; Bprint(&bout, "track length: 0x%luX\n", ul); Bprint(&bout, "track mode: 0x%uX\n", d[0x0A] & 0x0F); Bprint(&bout, "track status: 0x%uX\n", (d[0x0A]>>4) & 0x0F); Bprint(&bout, "data mode: 0x%uX\n", d[0x0B] & 0x0F); ul = (d[0x0C]<<24)|(d[0x0D]<<16)|(d[0x0E]<<8)|d[0x0F]; Bprint(&bout, "free blocks: 0x%luX\n", ul); return n; } static long cmdwtrack(ScsiReq *rp, int argc, char *argv[]) { uchar mode, track; long n, nbytes, total, x; int fd, pid; char *p; mode = track = 0; nbytes = 0; switch(argc){ default: rp->status = Status_BADARG; return -1; case 4: if((mode = strtoul(argv[3], &p, 0)) == 0 && p == argv[3]){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 3: if((track = strtoul(argv[2], &p, 0)) == 0 && p == argv[2]){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 2: if((nbytes = strtoul(argv[1], &p, 0)) == 0 && p == argv[1]){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 1: if((fd = mkfile(argv[0], OREAD, &pid)) == -1){ rp->status = Status_BADARG; return -1; } break; } total = 0; n = MIN(nbytes, maxiosize); if((n = readn(fd, rwbuf, n)) == -1){ fprint(2, "file read failed %r\n"); close(fd); return -1; } if((x = SRwtrack(rp, rwbuf, n, track, mode)) != n){ fprint(2, "wtrack: write incomplete: asked %ld, did %ld\n", n, x); if(rp->status == STok) rp->status = Status_SW; close(fd); return -1; } nbytes -= n; total += n; while(nbytes){ n = MIN(nbytes, maxiosize); if((n = read(fd, rwbuf, n)) == -1){ break; } if((x = SRwrite(rp, rwbuf, n)) != n){ fprint(2, "write: write incomplete: asked %ld, did %ld\n", n, x); if(rp->status == STok) rp->status = Status_SW; break; } nbytes -= n; total += n; } close(fd); if(pid >= 0 && waitfor(pid)){ rp->status = Status_SW; return -1; } return total; } static long cmdload(ScsiReq *rp, int argc, char *argv[]) { USED(argc, argv); return SRmload(rp, 0); } static long cmdunload(ScsiReq *rp, int argc, char *argv[]) { USED(argc, argv); return SRmload(rp, 1); } static long cmdfixation(ScsiReq *rp, int argc, char *argv[]) { uchar type; char *p; type = 0; if(argc && (type = strtoul(argv[0], &p, 0)) == 0 && p == argv[0]){ rp->status = Status_BADARG; return -1; } return SRfixation(rp, type); } static long cmdeinit(ScsiReq *rp, int argc, char *argv[]) { USED(argc, argv); return SReinitialise(rp); } static long cmdmmove(ScsiReq *rp, int argc, char *argv[]) { int transport, source, destination, invert; char *p; invert = 0; switch(argc){ default: rp->status = Status_BADARG; return -1; case 4: if((invert = strtoul(argv[3], &p, 0)) == 0 && p == argv[3]){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 3: if((transport = strtoul(argv[0], &p, 0)) == 0 && p == argv[0]){ rp->status = Status_BADARG; return -1; } if((source = strtoul(argv[1], &p, 0)) == 0 && p == argv[1]){ rp->status = Status_BADARG; return -1; } if((destination = strtoul(argv[2], &p, 0)) == 0 && p == argv[2]){ rp->status = Status_BADARG; return -1; } break; } return SRmmove(rp, transport, source, destination, invert); } static long cmdestatus(ScsiReq *rp, int argc, char *argv[]) { uchar *list, *lp, type; long d, i, n, nbytes, status; char *p; type = 0; nbytes = 4096; switch(argc){ default: rp->status = Status_BADARG; return -1; case 2: if((nbytes = strtoul(argv[1], &p, 0)) == 0 && p == argv[1]){ rp->status = Status_BADARG; return -1; } /*FALLTHROUGH*/ case 1: if((type = strtoul(argv[0], &p, 0)) == 0 && p == argv[0]){ rp->status = Status_BADARG; return -1; } break; case 0: break; } list = malloc(nbytes); if(list == 0){ rp->status = STnomem; return -1; } status = SRestatus(rp, type, list, nbytes); if(status == -1){ free(list); return -1; } lp = list; nbytes = ((lp[5]<<16)|(lp[6]<<8)|lp[7])-8; Bprint(&bout, " Header\n "); for(i = 0; i < 8; i++){ /* header */ Bprint(&bout, " %2.2uX", *lp); lp++; } Bputc(&bout, '\n'); while(nbytes > 0){ /* pages */ i = ((lp[5]<<16)|(lp[6]<<8)|lp[7]); nbytes -= i+8; Bprint(&bout, " Type"); for(n = 0; n < 8; n++) /* header */ Bprint(&bout, " %2.2uX", lp[n]); Bprint(&bout, "\n "); d = (lp[2]<<8)|lp[3]; lp += 8; for(n = 0; n < i; n++){ if(n && (n % d) == 0) Bprint(&bout, "\n "); Bprint(&bout, " %2.2uX", *lp); lp++; } if(n && (n % d)) Bputc(&bout, '\n'); } free(list); return status; } static long cmdhelp(ScsiReq *rp, int argc, char *argv[]) { ScsiCmd *cp; char *p; USED(rp); if(argc) p = argv[0]; else p = 0; for(cp = scsicmd; cp->name; cp++){ if(p == 0 || strcmp(p, cp->name) == 0) Bprint(&bout, "%s\n", cp->help); } return 0; } static long cmdprobe(ScsiReq *rp, int argc, char *argv[]) { char buf[32]; ScsiReq scsireq; char *ctlr, *unit; USED(argc, argv); rp->status = STok; scsireq.flags = 0; for(ctlr="CDEFGHIJ0123456789abcdef"; *ctlr; ctlr++) { /* * I can guess how many units you have. * SATA controllers can have more than two drives each. */ if(*ctlr >= 'C' && *ctlr <= 'D') unit = "01"; else if((*ctlr >= '0' && *ctlr <= '9') || (*ctlr >= 'a' && *ctlr <= 'f')) unit = "0123456789abcdef"; /* allow wide scsi */ else unit = "01234567"; for(; *unit; unit++){ sprint(buf, "/dev/sd%c%c", *ctlr, *unit); if(SRopenraw(&scsireq, buf) == -1) continue; SRreqsense(&scsireq); switch(scsireq.status){ case STok: case Status_SD: Bprint(&bout, "%s: ", buf); cmdinquiry(&scsireq, 0, 0); break; } SRclose(&scsireq); } } return 0; } static long cmdclose(ScsiReq *rp, int argc, char *argv[]) { USED(argc, argv); return SRclose(rp); } static long cmdopen(ScsiReq *rp, int argc, char *argv[]) { int raw; long status; raw = 0; if(argc && strcmp("-r", argv[0]) == 0){ raw = 1; argc--, argv++; } if(argc != 1){ rp->status = Status_BADARG; return -1; } if(raw == 0){ if((status = SRopen(rp, argv[0])) != -1 && verbose) Bprint(&bout, "%sblock size: %ld\n", rp->flags&Fbfixed? "fixed ": "", rp->lbsize); } else { status = SRopenraw(rp, argv[0]); rp->lbsize = 512; } return status; } static ScsiCmd scsicmd[] = { { "ready", cmdready, 1, /*[0x00]*/ "ready", }, { "rewind", cmdrewind, 1, /*[0x01]*/ "rewind", }, { "rezero", cmdrewind, 1, /*[0x01]*/ "rezero", }, { "reqsense", cmdreqsense, 1, /*[0x03]*/ "reqsense", }, { "format", cmdformat, 0, /*[0x04]*/ "format", }, { "rblimits", cmdrblimits, 1, /*[0x05]*/ "rblimits", }, { "read", cmdread, 1, /*[0x08]*/ "read [|]file [nbytes]", }, { "write", cmdwrite, 1, /*[0x0A]*/ "write [|]file [nbytes]", }, { "seek", cmdseek, 1, /*[0x0B]*/ "seek offset [whence]", }, { "filemark", cmdfilemark, 1, /*[0x10]*/ "filemark [howmany]", }, { "space", cmdspace, 1, /*[0x11]*/ "space [-f] [-b] [[--] howmany]", }, { "inquiry", cmdinquiry, 1, /*[0x12]*/ "inquiry", }, { "modeselect6",cmdmodeselect6, 1, /*[0x15] */ "modeselect6 bytes...", }, { "modeselect", cmdmodeselect10, 1, /*[0x55] */ "modeselect bytes...", }, { "modesense6", cmdmodesense6, 1, /*[0x1A]*/ "modesense6 [page [nbytes]]", }, { "modesense", cmdmodesense10, 1, /*[0x5A]*/ "modesense [page [nbytes]]", }, { "start", cmdstart, 1, /*[0x1B]*/ "start [code]", }, { "stop", cmdstop, 1, /*[0x1B]*/ "stop", }, { "eject", cmdeject, 1, /*[0x1B]*/ "eject", }, { "ingest", cmdingest, 1, /*[0x1B]*/ "ingest", }, { "capacity", cmdcapacity, 1, /*[0x25]*/ "capacity", }, { "blank", cmdblank, 1, /*[0xA1]*/ "blank [track/LBA [type]]", }, { "synccache", cmdsynccache, 1, /*[0x35]*/ "synccache", }, { "rtoc", cmdrtoc, 1, /*[0x43]*/ "rtoc [track/session-number [format]]", }, { "rdiscinfo", cmdrdiscinfo, 1, /*[0x51]*/ "rdiscinfo", }, { "rtrackinfo", cmdrtrackinfo, 1, /*[0x52]*/ "rtrackinfo [track]", }, { "cdpause", cmdcdpause, 1, /*[0x4B]*/ "cdpause", }, { "cdresume", cmdcdresume, 1, /*[0x4B]*/ "cdresume", }, { "cdstop", cmdcdstop, 1, /*[0x4E]*/ "cdstop", }, { "cdplay", cmdcdplay, 1, /*[0xA5]*/ "cdplay [track-number] or [-r [LBA [length]]]", }, { "cdload", cmdcdload, 1, /*[0xA6*/ "cdload [slot]", }, { "cdunload", cmdcdunload, 1, /*[0xA6]*/ "cdunload [slot]", }, { "cdstatus", cmdcdstatus, 1, /*[0xBD]*/ "cdstatus", }, // { "getconf", cmdgetconf, 1, /*[0x46]*/ // "getconf", // }, // { "fwaddr", cmdfwaddr, 1, /*[0xE2]*/ // "fwaddr [track [mode [npa]]]", // }, // { "treserve", cmdtreserve, 1, /*[0xE4]*/ // "treserve nbytes", // }, // { "trackinfo", cmdtrackinfo, 1, /*[0xE5]*/ // "trackinfo [track]", // }, // { "wtrack", cmdwtrack, 1, /*[0xE6]*/ // "wtrack [|]file [nbytes [track [mode]]]", // }, // { "load", cmdload, 1, /*[0xE7]*/ // "load", // }, // { "unload", cmdunload, 1, /*[0xE7]*/ // "unload", // }, // { "fixation", cmdfixation, 1, /*[0xE9]*/ // "fixation [toc-type]", // }, { "einit", cmdeinit, 1, /*[0x07]*/ "einit", }, { "estatus", cmdestatus, 1, /*[0xB8]*/ "estatus", }, { "mmove", cmdmmove, 1, /*[0xA5]*/ "mmove transport source destination [invert]", }, { "help", cmdhelp, 0, "help", }, { "probe", cmdprobe, 0, "probe", }, { "close", cmdclose, 1, "close", }, { "open", cmdopen, 0, "open [-r] sddev", }, { 0, 0 }, }; #define SEP(c) (((c)==' ')||((c)=='\t')||((c)=='\n')) static char * tokenise(char *s, char **start, char **end) { char *to; Rune r; int n; while(*s && SEP(*s)) /* skip leading white space */ s++; to = *start = s; while(*s){ n = chartorune(&r, s); if(SEP(r)){ if(to != *start) /* we have data */ break; s += n; /* null string - keep looking */ while(*s && SEP(*s)) s++; to = *start = s; } else if(r == '\''){ s += n; /* skip leading quote */ while(*s){ n = chartorune(&r, s); if(r == '\''){ if(s[1] != '\'') break; s++; /* embedded quote */ } while (n--) *to++ = *s++; } if(!*s) /* no trailing quote */ break; s++; /* skip trailing quote */ } else { while(n--) *to++ = *s++; } } *end = to; return s; } static int parse(char *s, char *fields[], int nfields) { int c, argc; char *start, *end; argc = 0; c = *s; while(c){ s = tokenise(s, &start, &end); c = *s++; if(*start == 0) break; if(argc >= nfields-1) return -1; *end = 0; fields[argc++] = start; } fields[argc] = 0; return argc; } static void usage(void) { fprint(2, "usage: %s [-6eq] [-m maxiosize] [[-r] /dev/sdXX]\n", argv0); exits("usage"); } static struct { int status; char* description; } description[] = { STnomem, "buffer allocation failed", STtimeout, "bus timeout", STharderr, "controller error of some kind", STok, "good", STcheck, "check condition", STcondmet, "condition met/good", STbusy, "busy ", STintok, "intermediate/good", STintcondmet, "intermediate/condition met/good", STresconf, "reservation conflict", STterminated, "command terminated", STqfull, "queue full", Status_SD, "sense-data available", Status_SW, "internal software error", Status_BADARG, "bad argument to request", 0, 0, }; void main(int argc, char *argv[]) { ScsiReq target; char *ap, *av[256]; int ac, i, raw = 0; ScsiCmd *cp; long status; ARGBEGIN { case 'e': exabyte = 1; /* fallthrough */ case '6': force6bytecmds = 1; break; case 'm': ap = ARGF(); if(ap == nil) usage(); maxiosize = atol(ap); if(maxiosize < 512 || maxiosize > MaxIOsize) sysfatal("max-xfer < 512 or > %d", MaxIOsize); break; case 'r': /* must be last option and not bundled */ raw++; break; case 'q': verbose = 0; break; default: usage(); } ARGEND if(Binit(&bin, 0, OREAD) == Beof || Binit(&bout, 1, OWRITE) == Beof){ fprint(2, "%s: can't init bio: %r\n", argv0); exits("Binit"); } memset(&target, 0, sizeof target); if (raw) { /* hack for -r */ ++argc; --argv; } if(argc && cmdopen(&target, argc, argv) == -1) { fprint(2, "open failed\n"); usage(); } Bflush(&bout); while(ap = Brdline(&bin, '\n')){ ap[Blinelen(&bin)-1] = 0; switch(ac = parse(ap, av, nelem(av))){ default: for(cp = scsicmd; cp->name; cp++){ if(strcmp(cp->name, av[0]) == 0) break; } if(cp->name == 0){ Bprint(&bout, "eh?\n"); break; } if((target.flags & Fopen) == 0 && cp->open){ Bprint(&bout, "no current target\n"); break; } if((status = (*cp->f)(&target, ac-1, &av[1])) != -1){ if(verbose) Bprint(&bout, "ok %ld\n", status); break; } for(i = 0; description[i].description; i++){ if(target.status != description[i].status) continue; if(target.status == Status_SD) makesense(&target); else Bprint(&bout, "%s\n", description[i].description); break; } break; case -1: Bprint(&bout, "eh?\n"); break; case 0: break; } Bflush(&bout); } exits(0); } /* USB mass storage fake */ long umsrequest(Umsc *umsc, ScsiPtr *cmd, ScsiPtr *data, int *status) { USED(umsc, data, cmd); *status = STharderr; return -1; }