#include <u.h>
#include <libc.h>
#include <disk.h>
#include "dat.h"
#include "fns.h"
enum
{
Pagesz = 255,
};
static Dev mmcdev;
typedef struct Mmcaux Mmcaux;
struct Mmcaux {
uchar page05[Pagesz];
int page05ok;
int pagecmdsz;
ulong mmcnwa;
int nropen;
int nwopen;
long ntotby;
long ntotbk;
};
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];
}
static void
hexdump(void *v, int n)
{
int i;
uchar *p;
p = v;
for(i=0; i<n; i++){
print("%.2ux ", p[i]);
if((i%8) == 7)
print("\n");
}
if(i%8)
print("\n");
}
static int
mmcgetpage10(Drive *drive, int page, void *v)
{
uchar cmd[10], resp[512];
int n, r;
memset(cmd, 0, sizeof(cmd));
cmd[0] = 0x5A;
cmd[2] = page;
cmd[8] = 255;
n = scsi(drive, cmd, sizeof(cmd), resp, sizeof(resp), Sread);
if(n < 8)
return -1;
r = (resp[6]<<8) | resp[7];
n -= 8+r;
if(n < 0)
return -1;
if(n > Pagesz)
n = Pagesz;
memmove(v, &resp[8+r], 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] = 0x1A;
cmd[2] = page;
cmd[4] = 255;
n = scsi(drive, cmd, sizeof(cmd), resp, sizeof(resp), Sread);
if(n < 4)
return -1;
n -= 4+resp[3];
if(n < 0)
return -1;
if(n > Pagesz)
n = Pagesz;
memmove(v, &resp[4+resp[3]], n);
return n;
}
static int
mmcsetpage10(Drive *drive, int page, void *v)
{
uchar cmd[10], *p, *pagedata;
int len, n;
pagedata = v;
assert(pagedata[0] == page);
len = 8+2+pagedata[1];
p = emalloc(len);
memmove(p+8, pagedata, pagedata[1]);
memset(cmd, 0, sizeof(cmd));
cmd[0] = 0x55;
cmd[1] = 0x10;
cmd[8] = len;
// print("cmd\n");
// hexdump(cmd, 10);
// print("page\n");
// hexdump(p, len);
n = scsi(drive, cmd, sizeof(cmd), p, len, Swrite);
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;
pagedata = v;
assert(pagedata[0] == page);
len = 4+2+pagedata[1];
p = emalloc(len);
memmove(p+4, pagedata, pagedata[1]);
memset(cmd, 0, sizeof(cmd));
cmd[0] = 0x15;
cmd[1] = 0x10;
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];
memset(cmd, 0, sizeof(cmd));
cmd[0] = 0xBD;
return scsi(drive, cmd, sizeof(cmd), nil, 0, Sread);
}
void
mmcgetspeed(Drive *drive)
{
int n, maxread, curread, maxwrite, curwrite;
uchar buf[Pagesz];
n = mmcgetpage(drive, 0x2A, buf);
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(n < 22 || (maxread && maxread < 170) || (curread && curread < 170))
return; /* bogus data */
drive->readspeed = curread;
drive->writespeed = curwrite;
drive->maxreadspeed = maxread;
drive->maxwritespeed = maxwrite;
}
Drive*
mmcprobe(Scsi *scsi)
{
Mmcaux *aux;
Drive *drive;
uchar buf[Pagesz];
int cap;
/* BUG: confirm mmc better? */
drive = emalloc(sizeof(Drive));
drive->Scsi = *scsi;
drive->Dev = mmcdev;
aux = emalloc(sizeof(Mmcaux));
drive->aux = aux;
/* attempt to read CD capabilities page */
if(mmcgetpage10(drive, 0x2A, buf) >= 0)
aux->pagecmdsz = 10;
else if(mmcgetpage6(drive, 0x2A, buf) >= 0)
aux->pagecmdsz = 6;
else {
werrstr("not an mmc device");
free(drive);
return nil;
}
cap = 0;
if(buf[3] & 3) /* 2=cdrw, 1=cdr */
cap |= Cwrite;
if(buf[5] & 1)
cap |= Ccdda;
// 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 page 05 (write parameter page) */
if((cap & Cwrite) && mmcgetpage(drive, 0x05, aux->page05) >= 0)
aux->page05ok = 1;
else
cap &= ~Cwrite;
drive->cap = cap;
mmcgetspeed(drive);
return drive;
}
static int
mmctrackinfo(Drive *drive, int t, int i)
{
uchar cmd[10], resp[255];
int n, type, bs;
uchar tmode;
ulong beg, size;
Mmcaux *aux;
aux = drive->aux;
memset(cmd, 0, sizeof(cmd));
cmd[0] = 0x52; /* get track info */
cmd[1] = 1;
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 0x%x\n", t, tmode);
type = TypeNone;
bs = BScdda;
switch(tmode){
case 0:
type = TypeAudio;
bs = BScdda;
break;
case 1: /* 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 4: /* data track, recorded uninterrupted */
type = TypeData;
bs = BScdrom;
break;
case 5: /* data track, recorded interrupted */
default:
if(vflag)
print("unknown track type %d\n", tmode);
}
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)) {
drive->track[i].type = TypeBlank;
drive->writeok = 1;
}
if(t == 0xFF)
aux->mmcnwa = bige(&resp[12]);
return 0;
}
static int
mmcreadtoc(Drive *drive, int type, int track, void *data, int nbytes)
{
uchar cmd[10];
memset(cmd, 0, sizeof(cmd));
cmd[0] = 0x43;
cmd[1] = type;
cmd[6] = track;
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] = 0x51;
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
mmcgettoc(Drive *drive)
{
uchar resp[1024];
int i, n, first, last;
ulong tot;
Track *t;
/*
* 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->ntrack = 0;
return 0;
}
if(drive->nchange == drive->Scsi.nchange && drive->changetime != 0)
return 0;
drive->ntrack = 0;
drive->nameok = 0;
drive->nchange = drive->Scsi.nchange;
drive->changetime = drive->Scsi.changetime;
drive->writeok = 0;
for(i=0; i<nelem(drive->track); i++){
memset(&drive->track[i].mbeg, 0, sizeof(Msf));
memset(&drive->track[i].mend, 0, sizeof(Msf));
}
/*
* find number of tracks
*/
if((n=mmcreadtoc(drive, 0x02, 0, resp, sizeof(resp))) < 4) {
/*
* on a blank disc in a cd-rw, use readdiscinfo
* to find the track info.
*/
if(mmcreaddiscinfo(drive, resp, sizeof(resp)) < 0)
return -1;
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);
drive->writeok = 1;
} else {
first = resp[2];
last = resp[3];
if(n >= 4+8*(last-first+2)) {
for(i=0; i<=last-first+1; i++) /* <=: track[last-first+1] = end */
drive->track[i].mbeg = rdmsf(resp+4+i*8+5);
for(i=0; i<last-first+1; i++)
drive->track[i].mend = drive->track[i+1].mbeg;
}
}
if(vflag)
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.
*/
for(i = first; i <= last; i++) {
memset(resp, 0, sizeof(resp));
if(mmcreadtoc(drive, 0x00, 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));
if(mmcreadtoc(drive, 0x00, 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 = 0;
t->end = 0;
}
t->size = (t->end - t->beg - 2) * (vlong)t->bs; /* -2: skip lead out */
}
}
drive->firsttrack = first;
drive->ntrack = last+1-first;
return 0;
}
static int
mmcsetbs(Drive *drive, int bs)
{
uchar *p;
Mmcaux *aux;
aux = drive->aux;
assert(aux->page05ok);
p = aux->page05;
p[2] = 0x01; /* track-at-once */
// if(xflag)
// p[2] |= 0x10; /* test-write */
switch(bs){
case BScdrom:
p[3] = (p[3] & ~0x07)|0x04; /* data track, uninterrupted */
p[4] = 0x08; /* mode 1 CD-ROM */
p[8] = 0; /* session format CD-DA or CD-ROM */
break;
case BScdda:
p[3] = (p[3] & ~0x07)|0x00; /* 2 audio channels without pre-emphasis */
p[4] = 0x00; /* raw data */
p[8] = 0; /* session format CD-DA or CD-ROM */
break;
case BScdxa:
p[3] = (p[3] & ~0x07)|0x04; /* data track, uninterrupted */
p[4] = 0x09; /* mode 2 */
p[8] = 0x20; /* session format CD-ROM XA */
break;
default:
assert(0);
}
if(mmcsetpage(drive, 0x05, p) < 0)
return -1;
}
static long
mmcread(Buf *buf, void *v, long nblock, long off)
{
Drive *drive;
int bs;
uchar cmd[12];
long n, nn;
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;
memset(cmd, 0, sizeof(cmd));
cmd[0] = 0xBE;
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;
}
n = nblock*bs;
nn = scsi(drive, cmd, sizeof(cmd), v, n, Sread);
if(nn != n) {
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, Nblock);
o->buf->otrack = o;
aux->nropen++;
return o;
}
static long
mmcxwrite(Otrack *o, void *v, long nblk)
{
uchar cmd[10];
Mmcaux *aux;
assert(o->omode == OWRITE);
aux = o->drive->aux;
aux->ntotby += nblk*o->track->bs;
aux->ntotbk += nblk;
memset(cmd, 0, sizeof(cmd));
cmd[0] = 0x2a; /* write */
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: 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, long)
{
return mmcxwrite(buf->otrack, v, nblk);
}
static Otrack*
mmccreate(Drive *drive, int type)
{
int bs;
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;
}
if(mmctrackinfo(drive, 0xFF, Maxtrack)) { /* the invisible track */
werrstr("CD not writable");
return nil;
}
if(mmcsetbs(drive, bs) < 0) {
werrstr("cannot set bs mode");
return nil;
}
if(mmctrackinfo(drive, 0xFF, Maxtrack)) { /* the invisible track */
werrstr("CD not writable 2");
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, Nblock);
o->buf->otrack = o;
aux->nwopen++;
if(vflag)
print("mmcinit: nwa = 0x%luX\n", aux->mmcnwa);
return o;
}
void
mmcsynccache(Drive *drive)
{
uchar cmd[10];
Mmcaux *aux;
memset(cmd, 0, sizeof(cmd));
cmd[0] = 0x35; /* flush */
scsi(drive, cmd, sizeof(cmd), cmd, 0, Snone);
if(vflag) {
aux = drive->aux;
print("mmcsynccache: bytes = %ld blocks = %ld, mmcnwa 0x%luX\n",
aux->ntotby, aux->ntotbk, aux->mmcnwa);
}
/* rsc: seems not to work on some drives; mmcclose(1, 0xFF); */
}
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
mmcxclose(Drive *drive, int ts, int trackno)
{
uchar cmd[10];
/*
* ts: 1 == track, 2 == session
*/
memset(cmd, 0, sizeof(cmd));
cmd[0] = 0x5B;
cmd[2] = ts;
if(ts == 1)
cmd[5] = trackno;
return scsi(drive, cmd, sizeof(cmd), cmd, 0, Snone);
}
static int
mmcfixate(Drive *drive)
{
uchar *p;
Mmcaux *aux;
if((drive->cap & Cwrite) == 0) {
werrstr("not a writer");
return -1;
}
drive->nchange = -1; /* force reread toc */
aux = drive->aux;
p = aux->page05;
p[3] = (p[3] & ~0xC0);
if(mmcsetpage(drive, 0x05, p) < 0)
return -1;
/* rsc: seems not to work on some drives; mmcclose(1, 0xFF); */
return mmcxclose(drive, 0x02, 0);
}
static int
mmcsession(Drive *drive)
{
uchar *p;
Mmcaux *aux;
drive->nchange = -1; /* force reread toc */
aux = drive->aux;
p = aux->page05;
p[3] = (p[3] & ~0xC0);
if(mmcsetpage(drive, 0x05, p) < 0)
return -1;
/* rsc: seems not to work on some drives; mmcclose(1, 0xFF); */
return mmcxclose(drive, 0x02, 0);
}
static int
mmcblank(Drive *drive, int quick)
{
uchar cmd[12];
drive->nchange = -1; /* force reread toc */
memset(cmd, 0, sizeof(cmd));
cmd[0] = 0xA1; /* blank */
/* 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 int
start(Drive *drive, int code)
{
uchar cmd[6];
memset(cmd, 0, sizeof(cmd));
cmd[0] = 0x1B;
cmd[4] = code;
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)
{
if(argc < 1)
return nil;
if(strcmp(argv[0], "blank") == 0)
return e(mmcblank(drive, 0));
if(strcmp(argv[0], "quickblank") == 0)
return e(mmcblank(drive, 1));
if(strcmp(argv[0], "eject") == 0)
return e(start(drive, 2));
if(strcmp(argv[0], "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] = 0xBB;
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,
};
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