/* * multi-media commands * * as of mmc-6, mode page 0x2a (capabilities & mechanical status) is legacy * and read-only, last defined in mmc-3. mode page 5 (write parameters) * applies only to cd-r(w) and dvd-r(w); *-rom, dvd+* and bd-* are right out. */ #include #include #include #include "../scuzz/scsireq.h" #include "dat.h" #include "fns.h" enum { Pagesz = 255, Pagwrparams = 5, /* (cd|dvd)-r(w) device write parameters */ Pagcache = 8, Pagcapmechsts = 0x2a, Invistrack = 0xff, /* the invisible & incomplete track */ }; static Dev mmcdev; typedef struct Mmcaux Mmcaux; struct Mmcaux { /* drive characteristics */ uchar page05[Pagesz]; /* write parameters */ int page05ok; int pagecmdsz; /* disc characteristics */ ulong mmcnwa; int nropen; int nwopen; vlong ntotby; long ntotbk; }; /* these will be printed as user ids, so no spaces please */ static char *dvdtype[] = { "dvd-rom", "dvd-ram", "dvd-r", "dvd-rw", "hd-dvd-rom", "hd-dvd-ram", "hd-dvd-r", "type-7-unknown", "type-8-unknown", "dvd+rw", "dvd+r", "type-11-unknown", "type-12-unknown", "dvd+rw-dl", "dvd+r-dl", "type-15-unknown", }; static ulong bige(void *p) { uchar *a; a = p; return (a[0]<<24)|(a[1]<<16)|(a[2]<<8)|(a[3]<<0); } static ushort biges(void *p) { uchar *a; a = p; return (a[0]<<8) | a[1]; } ulong getnwa(Drive *drive) { Mmcaux *aux; aux = drive->aux; return aux->mmcnwa; } static void hexdump(void *v, int n) { int i; uchar *p; p = v; for(i=0; i Pagesz) n = Pagesz; memmove(v, &resp[Mode10parmhdrlen + r], n); // print("get: got cmd\n"); // hexdump(cmd, 10); // print("page\n"); // hexdump(v, n); return n; } static int mmcgetpage6(Drive *drive, int page, void *v) { uchar cmd[6], resp[512]; int n; memset(cmd, 0, sizeof(cmd)); cmd[0] = ScmdMsense6; cmd[2] = page; cmd[4] = 255; /* allocation length */ n = scsi(drive, cmd, sizeof(cmd), resp, sizeof(resp), Sread); if(n < Mode6parmhdrlen) return -1; n -= Mode6parmhdrlen + resp[3]; if(n < 0) return -1; if(n > Pagesz) n = Pagesz; memmove(v, &resp[Mode6parmhdrlen + resp[3]], n); return n; } static int mmcsetpage10(Drive *drive, int page, void *v) { uchar cmd[10], *p, *pagedata; int len, n; /* allocate parameter list, copy in mode page, fill in header */ pagedata = v; assert(pagedata[0] == page); len = Mode10parmhdrlen + Modepaghdrlen + pagedata[1]; p = emalloc(len); memmove(p + Mode10parmhdrlen, pagedata, pagedata[1]); /* parameter list header */ p[0] = 0; p[1] = len - 2; /* set up CDB */ memset(cmd, 0, sizeof(cmd)); cmd[0] = ScmdMselect10; cmd[1] = 0x10; /* format not vendor-specific */ cmd[8] = len; // print("set: sending cmd\n"); // hexdump(cmd, 10); // print("parameter list header\n"); // hexdump(p, Mode10parmhdrlen); // print("page\n"); // hexdump(p + Mode10parmhdrlen, len - Mode10parmhdrlen); n = scsi(drive, cmd, sizeof(cmd), p, len, Swrite); // print("set: got cmd\n"); // hexdump(cmd, 10); free(p); if(n < len) return -1; return 0; } static int mmcsetpage6(Drive *drive, int page, void *v) { uchar cmd[6], *p, *pagedata; int len, n; if (vflag) print("mmcsetpage6 called!\n"); pagedata = v; assert(pagedata[0] == page); len = Mode6parmhdrlen + Modepaghdrlen + pagedata[1]; p = emalloc(len); memmove(p + Mode6parmhdrlen, pagedata, pagedata[1]); memset(cmd, 0, sizeof(cmd)); cmd[0] = ScmdMselect6; cmd[1] = 0x10; /* format not vendor-specific */ cmd[4] = len; n = scsi(drive, cmd, sizeof(cmd), p, len, Swrite); free(p); if(n < len) return -1; return 0; } static int mmcgetpage(Drive *drive, int page, void *v) { Mmcaux *aux; aux = drive->aux; switch(aux->pagecmdsz) { case 10: return mmcgetpage10(drive, page, v); case 6: return mmcgetpage6(drive, page, v); default: assert(0); } return -1; } static int mmcsetpage(Drive *drive, int page, void *v) { Mmcaux *aux; aux = drive->aux; switch(aux->pagecmdsz) { case 10: return mmcsetpage10(drive, page, v); case 6: return mmcsetpage6(drive, page, v); default: assert(0); } return -1; } int mmcstatus(Drive *drive) { uchar cmd[12]; initcdb(cmd, sizeof cmd, ScmdCDstatus); /* mechanism status */ return scsi(drive, cmd, sizeof(cmd), nil, 0, Sread); } void mmcgetspeed(Drive *drive) { int n, maxread, curread, maxwrite, curwrite; uchar buf[Pagesz]; memset(buf, 0, 22); n = mmcgetpage(drive, Pagcapmechsts, buf); /* legacy page */ if (n < 22) { if (vflag) fprint(2, "no Pagcapmechsts mode page!\n"); return; } maxread = (buf[8]<<8)|buf[9]; curread = (buf[14]<<8)|buf[15]; maxwrite = (buf[18]<<8)|buf[19]; curwrite = (buf[20]<<8)|buf[21]; if(maxread && maxread < 170 || curread && curread < 170) return; /* bogus data */ drive->readspeed = curread; drive->writespeed = curwrite; drive->maxreadspeed = maxread; drive->maxwritespeed = maxwrite; } static int getdevtype(Drive *drive) { int n; uchar cmd[6], resp[Pagesz]; initcdb(cmd, sizeof cmd, ScmdInq); cmd[3] = sizeof resp >> 8; cmd[4] = sizeof resp; n = scsi(drive, cmd, sizeof(cmd), resp, sizeof resp, Sread); if (n < 8) return -1; return resp[0] & 037; } static int start(Drive *drive, int code) { uchar cmd[6]; initcdb(cmd, sizeof cmd, ScmdStart); cmd[4] = code; return scsi(drive, cmd, sizeof(cmd), cmd, 0, Snone); } Drive* mmcprobe(Scsi *scsi) { Mmcaux *aux; Drive *drive; uchar buf[Pagesz]; int cap, n; if (vflag) print("mmcprobe: inquiry: %s\n", scsi->inquire); drive = emalloc(sizeof(Drive)); drive->Scsi = *scsi; drive->Dev = mmcdev; aux = emalloc(sizeof(Mmcaux)); drive->aux = aux; scsiready(drive); drive->type = getdevtype(drive); if (drive->type != TypeCD) { werrstr("not an mmc device"); free(aux); free(drive); return nil; } /* * drive is an mmc device; learn what we can about it * (as opposed to the disc in it). */ start(drive, 1); /* attempt to read CD capabilities page, but it's now legacy */ if(mmcgetpage10(drive, Pagcapmechsts, buf) >= 0) aux->pagecmdsz = 10; else if(mmcgetpage6(drive, Pagcapmechsts, buf) >= 0) aux->pagecmdsz = 6; else { if (vflag) fprint(2, "no Pagcapmechsts mode page!\n"); werrstr("can't read mode page %d!", Pagcapmechsts); free(aux); free(drive); return nil; } cap = 0; if(buf[Capwrite] & (Capcdr|Capcdrw|Capdvdr|Capdvdram) || buf[Capmisc] & Caprw) cap |= Cwrite; if(buf[Capmisc] & Capcdda) /* CD-DA commands supported? */ cap |= Ccdda; /* not used anywhere else */ // print("read %d max %d\n", biges(buf+14), biges(buf+8)); // print("write %d max %d\n", biges(buf+20), biges(buf+18)); /* cache optional page 05 (write parameter page) */ if(/* (cap & Cwrite) && */ mmcgetpage(drive, Pagwrparams, aux->page05) >= 0) { aux->page05ok = 1; cap |= Cwrite; if (vflag) fprint(2, "mmcprobe: got page 5, assuming drive can write\n"); } else { if (vflag) fprint(2, "no Pagwrparams mode page!\n"); cap &= ~Cwrite; } drive->cap = cap; mmcgetspeed(drive); /* * we can't actually control caching much. * see SBC-2 §6.3.3 but also MMC-6 §7.6. */ n = mmcgetpage(drive, Pagcache, buf); if (n >= 3) { /* n == 255; buf[1] == 10 (10 bytes after buf[1]) */ buf[0] &= 077; /* clear reserved bits, MMC-6 §7.2.3 */ assert(buf[0] == Pagcache); assert(buf[1] >= 10); buf[2] = Ccwce; if (mmcsetpage(drive, Pagcache, buf) < 0) if (vflag) print("mmcprobe: cache control NOT set\n"); } return drive; } static char *tracktype[] = { /* indices are track modes (Tm*) */ "audio cdda", "2 audio channels", "2", "3", "data, recorded uninterrupted", "data, recorded interrupted", }; /* t is a track number on disc, i is an index into drive->track[] for result */ static int mmctrackinfo(Drive *drive, int t, int i) { int n, type, bs; ulong beg, size; uchar tmode; uchar cmd[10], resp[255]; Mmcaux *aux; aux = drive->aux; memset(cmd, 0, sizeof(cmd)); cmd[0] = ScmdRtrackinfo; cmd[1] = 1; /* address below is logical track # */ cmd[2] = t>>24; cmd[3] = t>>16; cmd[4] = t>>8; cmd[5] = t; cmd[7] = sizeof(resp)>>8; cmd[8] = sizeof(resp); n = scsi(drive, cmd, sizeof(cmd), resp, sizeof(resp), Sread); if(n < 28) { if(vflag) print("trackinfo %d fails n=%d: %r\n", t, n); return -1; } beg = bige(&resp[8]); size = bige(&resp[24]); tmode = resp[5] & 0x0D; // dmode = resp[6] & 0x0F; if(vflag) print("track %d type %d (%s)", t, tmode, (tmode < nelem(tracktype)? tracktype[tmode]: "**GOK**")); type = TypeNone; bs = BScdda; switch(tmode){ case Tmcdda: type = TypeAudio; bs = BScdda; break; case Tm2audio: /* 2 audio channels, with pre-emphasis 50/15 μs */ if(vflag) print("audio channels with preemphasis on track %d " "(u%.3d)\n", t, i); type = TypeNone; break; case Tmunintr: /* data track, recorded uninterrupted */ case Tmintr: /* data track, recorded interrupted */ /* treat Tmintr (5) as cdrom; it's probably dvd or bd */ type = TypeData; bs = BScdrom; break; default: if(vflag) print("unknown track type %d\n", tmode); break; } drive->track[i].mtime = drive->changetime; drive->track[i].beg = beg; drive->track[i].end = beg+size; drive->track[i].type = type; drive->track[i].bs = bs; drive->track[i].size = (vlong)(size-2) * bs; /* -2: skip lead out */ if(resp[6] & (1<<6)) { /* blank? */ drive->track[i].type = TypeBlank; drive->writeok = 1; } if(vflag) print(" start %lud end %lud", beg, beg + size - 1); /* resp[6] & (1<<7) of zero: invisible track */ /* t == getinvistrack(): invisible track */ if(t == Invistrack || resp[7] & 1) { /* invis or nwa valid? */ aux->mmcnwa = bige(&resp[12]); if ((long)aux->mmcnwa < 0) /* implausible? */ aux->mmcnwa = 0; if (vflag) print(" nwa %lud", aux->mmcnwa); } if (vflag) print("\n"); return 0; } /* this may fail for blank media */ static int mmcreadtoc(Drive *drive, int type, int track, void *data, int nbytes) { uchar cmd[10]; memset(cmd, 0, sizeof(cmd)); cmd[0] = ScmdRTOC; cmd[1] = type; /* msf bit & reserved */ cmd[2] = Tocfmttoc; cmd[6] = track; /* track/session */ cmd[7] = nbytes>>8; cmd[8] = nbytes; return scsi(drive, cmd, sizeof(cmd), data, nbytes, Sread); } static int mmcreaddiscinfo(Drive *drive, void *data, int nbytes) { uchar cmd[10]; int n; memset(cmd, 0, sizeof(cmd)); cmd[0] = ScmdRdiscinfo; cmd[7] = nbytes>>8; cmd[8] = nbytes; n = scsi(drive, cmd, sizeof(cmd), data, nbytes, Sread); if(n < 24) { if(n >= 0) werrstr("rdiscinfo returns %d", n); return -1; } return n; } static Msf rdmsf(uchar *p) { Msf msf; msf.m = p[0]; msf.s = p[1]; msf.f = p[2]; return msf; } static int getdiscinfo(Drive *drive, uchar resp[], int resplen) { int n; n = mmcreaddiscinfo(drive, resp, resplen); if(n < 3) { if (vflag) fprint(2, "read disc info failed\n"); return n; } if (vflag) fprint(2, "read disc info succeeded\n"); assert((resp[2] & 0340) == 0); /* data type 0 */ drive->erasable = ((resp[2] & 0x10) != 0); /* -RW? */ drive->erasableset = 1; return n; } static int getdvdstruct(Drive *drive) { int n, cat; uchar cmd[12], resp[Pagesz]; initcdb(cmd, sizeof cmd, ScmdReadDVD); /* actually, read disc structure */ cmd[1] = 0; /* media type: dvd */ cmd[7] = 0; /* format code: physical format */ cmd[8] = sizeof resp >> 8; /* allocation length */ cmd[9] = sizeof resp; n = scsi(drive, cmd, sizeof(cmd), resp, sizeof resp, Sread); if (n < 7) return -1; // print("dvd structure:\n"); // hexdump(resp, n); /* resp[0..1] is resp length */ cat = (resp[4] & 0xf0) >> 4; /* disk category, MMC-6 §6.22.3.2.1 */ if (vflag) fprint(2, "dvd type is %s\n", dvdtype[cat]); drive->dvdtype = dvdtype[cat]; /* write parameters mode page may suffice to compute writeok for dvd */ drive->erasable = drive->recordable = 0; /* * the layer-type field is a *bit array*, * though an enumeration of types would make more sense, * since the types are exclusive, not orthogonal. */ if (resp[6] & (1<<2)) /* rewritable? */ drive->erasable = 1; else if (resp[6] & (1<<1)) /* recordable once? */ drive->recordable = 1; else { /* factory-pressed disk */ drive->blank = 0; drive->blankset = 1; } drive->erasableset = drive->recordableset = 1; drive->mmctype = (cat >= 8? Mmcdvdplus: Mmcdvdminus); return 0; } static int getbdstruct(Drive *drive) { int n; uchar cmd[12], resp[4100]; initcdb(cmd, sizeof cmd, ScmdReadDVD); /* actually, read disc structure */ cmd[1] = 1; /* media type: bd */ cmd[7] = 0; /* format code: disc info */ cmd[8] = sizeof resp >> 8; /* allocation length */ cmd[9] = sizeof resp; n = scsi(drive, cmd, sizeof(cmd), resp, sizeof resp, Sread); /* * resp[0..1] is resp length. * resp[4+8..4+8+2] is bd type (disc type identifier): * BDO|BDW|BDR, MMC-6 §6.22.3.3.1. The above command should * fail on DVD drives, but some seem to ignore media type * and return successfully, so verify that it's a BD drive. */ if (n < 4+8+3 || resp[4+8] != 'B' || resp[4+8+1] != 'D') return -1; if (vflag) fprint(2, "read disc structure (bd) succeeded\n"); drive->erasable = drive->recordable = 0; switch (resp[4+8+2]) { case 'O': drive->blank = 0; drive->blankset = 1; break; case 'R': /* Recordable */ drive->recordable = 1; break; case 'W': /* reWritable */ drive->erasable = 1; break; default: fprint(2, "%s: unknown bd type BD%c\n", argv0, resp[4+8+2]); return -1; } drive->erasableset = drive->recordableset = 1; drive->mmctype = Mmcbd; return 0; } /* * infer endings from the beginnings of other tracks. */ static void mmcinfertracks(Drive *drive, int first, int last) { int i; uchar resp[1024]; ulong tot; Track *t; if (vflag) fprint(2, "inferring tracks\n"); for(i = first; i <= last; i++) { memset(resp, 0, sizeof(resp)); if(mmcreadtoc(drive, 0, i, resp, sizeof(resp)) < 0) break; t = &drive->track[i-first]; t->mtime = drive->changetime; t->type = TypeData; t->bs = BScdrom; t->beg = bige(resp+8); if(!(resp[5] & 4)) { t->type = TypeAudio; t->bs = BScdda; } } if((long)drive->track[0].beg < 0) /* i've seen negative track 0's */ drive->track[0].beg = 0; tot = 0; memset(resp, 0, sizeof(resp)); /* 0xAA is lead-out */ if(mmcreadtoc(drive, 0, 0xAA, resp, sizeof(resp)) < 0) print("bad\n"); if(resp[6]) tot = bige(resp+8); for(i=last; i>=first; i--) { t = &drive->track[i-first]; t->end = tot; tot = t->beg; if(t->end <= t->beg) t->beg = t->end = 0; /* -2: skip lead out */ t->size = (t->end - t->beg - 2) * (vlong)t->bs; } } /* this gets called a lot from main.c's 9P routines */ static int mmcgettoc(Drive *drive) { int i, n, first, last; uchar resp[1024]; Mmcaux *aux; /* * if someone has swapped the cd, * mmcreadtoc will get ``medium changed'' and the * scsi routines will set nchange and changetime in the * scsi device. */ mmcreadtoc(drive, 0, 0, resp, sizeof(resp)); if(drive->Scsi.changetime == 0) { /* no media present */ drive->mmctype = Mmcnone; drive->ntrack = 0; return 0; } /* * if the disc doesn't appear to be have been changed, and there * is a disc in this drive, there's nothing to do (the common case). */ if(drive->nchange == drive->Scsi.nchange && drive->changetime != 0) return 0; /* * the disc in the drive may have just been changed, * so rescan it and relearn all about it. */ drive->ntrack = 0; drive->nameok = 0; drive->nchange = drive->Scsi.nchange; drive->changetime = drive->Scsi.changetime; drive->writeok = drive->erasable = drive->recordable = drive->blank = 0; drive->erasableset = drive->recordableset = drive->blankset = 0; aux = drive->aux; aux->mmcnwa = 0; aux->nropen = aux->nwopen = 0; aux->ntotby = aux->ntotbk = 0; for(i=0; itrack); i++){ memset(&drive->track[i].mbeg, 0, sizeof(Msf)); memset(&drive->track[i].mend, 0, sizeof(Msf)); } /* * TODO: set read ahead, MMC-6 §6.37, seems to control caching. */ /* * find number of tracks */ if((n = mmcreadtoc(drive, Msfbit, 0, resp, sizeof(resp))) < 4) { /* * on a blank disc in a cd-rw, use readdiscinfo * to find the track info. */ if(getdiscinfo(drive, resp, sizeof(resp)) < 7) return -1; assert((resp[2] & 0340) == 0); /* data type 0 */ if(resp[4] != 1) print("multi-session disc %d\n", resp[4]); first = resp[3]; last = resp[6]; if(vflag) print("blank disc %d %d\n", first, last); /* the assumption of blankness may be unwarranted */ drive->writeok = drive->blank = drive->blankset = 1; } else { first = resp[2]; last = resp[3]; if(n >= 4+8*(last-first+2)) { /* resp[4 + i*8 + 2] is track # */ /* <=: track[last-first+1] = end */ for(i=0; i<=last-first+1; i++) drive->track[i].mbeg = rdmsf(resp+4+i*8+5); for(i=0; itrack[i].mend = drive->track[i+1].mbeg; } } drive->mmctype = Mmcnone; drive->dvdtype = nil; getdvdstruct(drive); getbdstruct(drive); if (drive->mmctype == Mmcnone) drive->mmctype = Mmccd; /* by default */ if (drive->recordable || drive->erasable) drive->writeok = 1; if (vflag) { fprint(2, "writeok %d", drive->writeok); /* drive->blank is never used and hard to figure out */ // if (drive->blankset) // fprint(2, " blank %d", drive->blank); if (drive->recordableset) fprint(2, " recordable %d", drive->recordable); if (drive->erasableset) fprint(2, " erasable %d", drive->erasable); fprint(2, "\n"); print("first %d last %d\n", first, last); } if(first == 0 && last == 0) first = 1; if(first <= 0 || first >= Maxtrack) { werrstr("first table %d not in range", first); return -1; } if(last <= 0 || last >= Maxtrack) { werrstr("last table %d not in range", last); return -1; } if(drive->cap & Cwrite) /* CDR drives are easy */ for(i = first; i <= last; i++) mmctrackinfo(drive, i, i - first); else /* * otherwise we need to infer endings from the * beginnings of other tracks. */ mmcinfertracks(drive, first, last); drive->firsttrack = first; drive->ntrack = last+1-first; return 0; } static void settrkmode(uchar *p, int mode) { p[Wptrkmode] &= ~0xf; p[Wptrkmode] |= mode; } /* * this uses page 5, which is optional. */ static int mmcsetbs(Drive *drive, int bs) { uchar *p; Mmcaux *aux; aux = drive->aux; if (!aux->page05ok) return 0; /* harmless; assume 2k */ p = aux->page05; /* * establish defaults. */ p[0] &= 077; /* clear reserved bits, MMC-6 §7.2.3 */ p[Wpwrtype] = Bufe | Wttrackonce; // if(testonlyflag) // p[Wpwrtype] |= 0x10; /* test-write */ /* assume dvd values as defaults */ settrkmode(p, Tmintr); p[Wptrkmode] |= Msnext; p[Wpdatblktype] = Db2kdata; p[Wpsessfmt] = Sfdata; switch(drive->mmctype) { case Mmcdvdplus: case Mmcbd: break; case Mmcdvdminus: /* dvd-r can only do disc-at-once or incremental */ p[Wpwrtype] = Bufe | Wtsessonce; break; case Mmccd: settrkmode(p, Tmunintr); /* data track, uninterrupted */ switch(bs){ case BScdda: /* 2 audio channels without pre-emphasis */ settrkmode(p, Tmcdda); /* TODO: should be Tm2audio? */ p[Wpdatblktype] = Dbraw; break; case BScdrom: break; case BScdxa: p[Wpdatblktype] = Db2336; p[Wpsessfmt] = Sfcdxa; break; default: fprint(2, "%s: unknown CD type; bs %d\n", argv0, bs); assert(0); } break; default: fprint(2, "%s: unknown disc sub-type %d\n", argv0, drive->mmctype); break; } if(mmcsetpage(drive, Pagwrparams, p) < 0) { if (vflag) fprint(2, "mmcsetbs: could NOT set write parameters page\n"); return -1; } return 0; } /* off is a block number */ static long mmcread(Buf *buf, void *v, long nblock, ulong off) { int bs; long n, nn; uchar cmd[12]; Drive *drive; Otrack *o; o = buf->otrack; drive = o->drive; bs = o->track->bs; off += o->track->beg; if(nblock >= (1<<10)) { werrstr("mmcread too big"); if(vflag) fprint(2, "mmcread too big\n"); return -1; } /* truncate nblock modulo size of track */ if(off > o->track->end - 2) { werrstr("read past end of track"); if(vflag) fprint(2, "end of track (%ld->%ld off %ld)", o->track->beg, o->track->end - 2, off); return -1; } if(off == o->track->end - 2) return 0; if(off+nblock > o->track->end - 2) nblock = o->track->end - 2 - off; /* * `read cd' only works for CDs; for everybody else, * we'll try plain `read (12)'. only use read cd if it's * a cd drive with a cd in it and we're not reading data * (e.g., reading audio). */ memset(cmd, 0, sizeof(cmd)); if (drive->type == TypeCD && drive->mmctype == Mmccd && bs != BScdrom) { cmd[0] = ScmdReadcd; cmd[2] = off>>24; cmd[3] = off>>16; cmd[4] = off>>8; cmd[5] = off>>0; cmd[6] = nblock>>16; cmd[7] = nblock>>8; cmd[8] = nblock>>0; cmd[9] = 0x10; switch(bs){ case BScdda: cmd[1] = 0x04; break; case BScdrom: cmd[1] = 0x08; break; case BScdxa: cmd[1] = 0x0C; break; default: werrstr("unknown bs %d", bs); return -1; } } else { /* e.g., TypeDA */ cmd[0] = ScmdRead12; cmd[2] = off>>24; cmd[3] = off>>16; cmd[4] = off>>8; cmd[5] = off>>0; cmd[6] = nblock>>24; cmd[7] = nblock>>16; cmd[8] = nblock>>8; cmd[9] = nblock; // cmd[10] = 0x80; /* streaming */ } n = nblock*bs; nn = scsi(drive, cmd, sizeof(cmd), v, n, Sread); if(nn != n) { if(nn != -1) werrstr("short read %ld/%ld", nn, n); if(vflag) print("read off %lud nblock %ld bs %d failed\n", off, nblock, bs); return -1; } return nblock; } static Otrack* mmcopenrd(Drive *drive, int trackno) { Otrack *o; Mmcaux *aux; if(trackno < 0 || trackno >= drive->ntrack) { werrstr("track number out of range"); return nil; } aux = drive->aux; if(aux->nwopen) { werrstr("disk in use for writing"); return nil; } o = emalloc(sizeof(Otrack)); o->drive = drive; o->track = &drive->track[trackno]; o->nchange = drive->nchange; o->omode = OREAD; o->buf = bopen(mmcread, OREAD, o->track->bs, BDNblock); o->buf->otrack = o; aux->nropen++; return o; } static int format(Drive *drive) { ulong nblks, blksize; uchar *fmtdesc; uchar cmd[6], parms[4+8]; if (drive->recordable && drive->mmctype != Mmcbd) { werrstr("don't format write-once cd or dvd media"); return -1; } initcdb(cmd, sizeof cmd, ScmdFormat); /* format unit */ cmd[1] = 0x10 | 1; /* format data, mmc format code */ memset(parms, 0, sizeof parms); /* format list header */ parms[1] = 2; /* immediate return; don't wait */ parms[3] = 8; /* format descriptor length */ fmtdesc = parms + 4; fmtdesc[4] = 0; /* full format */ nblks = 0; blksize = BScdrom; switch (drive->mmctype) { case Mmccd: nblks = 0; break; case Mmcdvdplus: /* format type 0 is optional but equiv to format type 0x26 */ fmtdesc[4] = 0x26 << 2; nblks = ~0ul; blksize = 0; break; } PUTBELONG(fmtdesc, nblks); PUTBE24(fmtdesc + 5, blksize); // print("format parameters:\n"); // hexdump(parms, sizeof parms); if(vflag) print("%lld ns: format\n", nsec()); return scsi(drive, cmd, sizeof(cmd), parms, sizeof parms, Swrite); } static long mmcxwrite(Otrack *o, void *v, long nblk) { uchar cmd[10]; Mmcaux *aux; assert(o->omode == OWRITE); aux = o->drive->aux; if (aux->mmcnwa == 0 && scsiready(o->drive) < 0) { werrstr("device not ready to write"); return -1; } aux->ntotby += nblk*o->track->bs; aux->ntotbk += nblk; memset(cmd, 0, sizeof(cmd)); cmd[0] = ScmdExtwrite; /* write (10) */ cmd[2] = aux->mmcnwa>>24; cmd[3] = aux->mmcnwa>>16; cmd[4] = aux->mmcnwa>>8; cmd[5] = aux->mmcnwa; cmd[7] = nblk>>8; cmd[8] = nblk>>0; if(vflag) print("%lld ns: write %ld at 0x%lux\n", nsec(), nblk, aux->mmcnwa); aux->mmcnwa += nblk; return scsi(o->drive, cmd, sizeof(cmd), v, nblk*o->track->bs, Swrite); } static long mmcwrite(Buf *buf, void *v, long nblk, ulong) { return mmcxwrite(buf->otrack, v, nblk); } enum { Eccblk = 128, /* sectors per ecc block */ Rsvslop = 0, }; static int reserve(Drive *drive, int track) { ulong sz; uchar cmd[10]; initcdb(cmd, sizeof cmd, ScmdReserve); track -= drive->firsttrack; /* switch to zero-origin */ if (track >= 0 && track < drive->ntrack) /* .end is next sector past sz */ sz = drive->track[track].end - drive->track[track].beg - Rsvslop; else { sz = Eccblk; fprint(2, "%s: reserve: track #%d out of range 0-%d\n", argv0, track, drive->ntrack); } sz -= sz % Eccblk; /* round down to ecc-block multiple */ if ((long)sz < 0) { fprint(2, "%s: reserve: bogus size %lud\n", argv0, sz); return -1; } cmd[1] = 0; /* no ASRV: allocate by size not lba */ PUTBELONG(cmd + 2 + 3, sz); if (vflag) fprint(2, "reserving %ld sectors\n", sz); return scsi(drive, cmd, sizeof cmd, cmd, 0, Snone); } static int getinvistrack(Drive *drive) { int n; uchar cmd[10], resp[Pagesz]; initcdb(cmd, sizeof(cmd), ScmdRtrackinfo); cmd[1] = 1<<2 | 1; /* open; address below is logical track # */ PUTBELONG(cmd + 2, 1); /* find first open track */ cmd[7] = sizeof(resp)>>8; cmd[8] = sizeof(resp); n = scsi(drive, cmd, sizeof(cmd), resp, sizeof(resp), Sread); if(n < 4) { if(vflag) print("trackinfo for invis track fails n=%d: %r\n", n); return -1; } if(vflag) print("getinvistrack: track #%d session #%d\n", resp[2], resp[3]); return resp[2]; } static Otrack* mmccreate(Drive *drive, int type) { int bs, invis; Mmcaux *aux; Track *t; Otrack *o; aux = drive->aux; if(aux->nropen || aux->nwopen) { werrstr("drive in use"); return nil; } switch(type){ case TypeAudio: bs = BScdda; break; case TypeData: bs = BScdrom; break; default: werrstr("bad type %d", type); return nil; } invis = getinvistrack(drive); if (invis < 0) invis = Invistrack; /* comment out the returns for now; it should be no big deal - geoff */ if(mmctrackinfo(drive, invis, Maxtrack)) { if (vflag) fprint(2, "mmccreate: mmctrackinfo for invis track %d" " failed: %r\n", invis); werrstr("disc not writable"); // return nil; } if(mmcsetbs(drive, bs) < 0) { werrstr("cannot set bs mode"); // return nil; } if(mmctrackinfo(drive, invis, Maxtrack)) { if (vflag) fprint(2, "mmccreate: mmctrackinfo for invis track %d" " (2) failed: %r\n", invis); werrstr("disc not writable 2"); // return nil; } /* special hack for dvd-r: reserve the invisible track */ if (drive->mmctype == Mmcdvdminus && drive->writeok && drive->recordable && reserve(drive, invis) < 0) { if (vflag) fprint(2, "mmcreate: reserving track %d for dvd-r " "failed: %r\n", invis); return nil; } aux->ntotby = 0; aux->ntotbk = 0; t = &drive->track[drive->ntrack++]; t->size = 0; t->bs = bs; t->beg = aux->mmcnwa; t->end = 0; t->type = type; drive->nameok = 0; o = emalloc(sizeof(Otrack)); o->drive = drive; o->nchange = drive->nchange; o->omode = OWRITE; o->track = t; o->buf = bopen(mmcwrite, OWRITE, bs, BDNblock); o->buf->otrack = o; aux->nwopen++; if(vflag) print("mmcinit: nwa = 0x%luX\n", aux->mmcnwa); return o; } /* * issue some form of close track, close session or finalize disc command. * see The Matrix, table 252 in MMC-6 §6.3.2.3. */ static int mmcxclose(Drive *drive, int clf, int trackno) { uchar cmd[10]; memset(cmd, 0, sizeof(cmd)); cmd[0] = ScmdClosetracksess; /* cmd[1] & 1 is the immediate bit */ cmd[2] = clf; /* close function */ if(clf == Closetrack) cmd[5] = trackno; return scsi(drive, cmd, sizeof(cmd), cmd, 0, Snone); } /* flush drive cache, close current track */ void mmcsynccache(Drive *drive) { int invis; uchar cmd[10]; Mmcaux *aux; initcdb(cmd, sizeof cmd, ScmdSynccache); /* * this will take a long time to burn the remainder of a dvd-r * with a reserved track covering the whole disc. */ if (vflag) { fprint(2, "syncing cache"); if (drive->mmctype == Mmcdvdminus && drive->writeok && drive->recordable) fprint(2, "; dvd-r burning rest of track reservation, " "will be slow"); fprint(2, "\n"); } scsi(drive, cmd, sizeof(cmd), cmd, 0, Snone); if(vflag) { aux = drive->aux; print("mmcsynccache: bytes = %lld blocks = %ld, mmcnwa 0x%luX\n", aux->ntotby, aux->ntotbk, aux->mmcnwa); } invis = getinvistrack(drive); if (invis < 0) invis = Invistrack; /* * rsc: seems not to work on some drives. * so ignore return code & don't issue on dvd+rw. */ if(drive->mmctype != Mmcdvdplus || !drive->erasable) { if (vflag) fprint(2, "closing invisible track %d (not dvd+rw)...\n", invis); mmcxclose(drive, Closetrack, invis); if (vflag) fprint(2, "... done.\n"); } } /* * close the open track `o'. */ static void mmcclose(Otrack *o) { Mmcaux *aux; static uchar zero[2*BSmax]; aux = o->drive->aux; if(o->omode == OREAD) aux->nropen--; else if(o->omode == OWRITE) { aux->nwopen--; mmcxwrite(o, zero, 2); /* write lead out */ mmcsynccache(o->drive); o->drive->nchange = -1; /* force reread toc */ } free(o); } static int setonesess(Drive *drive) { uchar *p; Mmcaux *aux; /* page 5 is legacy and now read-only; see MMC-6 §7.5.4.1 */ aux = drive->aux; p = aux->page05; p[Wptrkmode] &= ~Msbits; p[Wptrkmode] |= Msnonext; return mmcsetpage(drive, Pagwrparams, p); } /* * close the current session, then finalize the disc. */ static int mmcfixate(Drive *drive) { int r; if((drive->cap & Cwrite) == 0) { werrstr("not a writer"); return -1; } drive->nchange = -1; /* force reread toc */ setonesess(drive); /* skip explicit close session on bd-r */ if (drive->mmctype != Mmcbd || drive->erasable) { if (vflag) fprint(2, "closing session and maybe finalizing...\n"); r = mmcxclose(drive, Closesessfinal, 0); if (vflag) fprint(2, "... done.\n"); if (r < 0) return r; } /* * Closesessfinal only closes & doesn't finalize on dvd+r and bd-r. * Closedvdrbdfinal closes & finalizes dvd+r and bd-r. */ if ((drive->mmctype == Mmcdvdplus || drive->mmctype == Mmcbd) && !drive->erasable) { if (vflag) fprint(2, "finalizing dvd+r or bd-r... " "(won't print `done').\n"); return mmcxclose(drive, Closedvdrbdfinal, 0); } return 0; } static int mmcblank(Drive *drive, int quick) { uchar cmd[12]; drive->nchange = -1; /* force reread toc */ memset(cmd, 0, sizeof(cmd)); cmd[0] = ScmdBlank; /* blank cd-rw media */ /* immediate bit is 0x10 */ /* cmd[1] = 0 means blank the whole disc; = 1 just the header */ cmd[1] = quick ? 0x01 : 0x00; return scsi(drive, cmd, sizeof(cmd), cmd, 0, Snone); } static char* e(int status) { if(status < 0) return geterrstr(); return nil; } static char* mmcctl(Drive *drive, int argc, char **argv) { char *cmd; if(argc < 1) return nil; cmd = argv[0]; if(strcmp(cmd, "format") == 0) return e(format(drive)); if(strcmp(cmd, "blank") == 0) return e(mmcblank(drive, 0)); if(strcmp(cmd, "quickblank") == 0) return e(mmcblank(drive, 1)); if(strcmp(cmd, "eject") == 0) return e(start(drive, 2)); if(strcmp(cmd, "ingest") == 0) return e(start(drive, 3)); return "bad arg"; } static char* mmcsetspeed(Drive *drive, int r, int w) { char *rv; uchar cmd[12]; memset(cmd, 0, sizeof(cmd)); cmd[0] = ScmdSetcdspeed; cmd[2] = r>>8; cmd[3] = r; cmd[4] = w>>8; cmd[5] = w; rv = e(scsi(drive, cmd, sizeof(cmd), nil, 0, Snone)); mmcgetspeed(drive); return rv; } static Dev mmcdev = { mmcopenrd, mmccreate, bufread, bufwrite, mmcclose, mmcgettoc, mmcfixate, mmcctl, mmcsetspeed, };